Derivative (finance)

Summary

In finance, a derivative is a contract that derives its value from the performance of an underlying entity. This underlying entity can be an asset, index, or interest rate, and is often simply called the underlying.[1][2] Derivatives can be used for a number of purposes, including insuring against price movements (hedging), increasing exposure to price movements for speculation, or getting access to otherwise hard-to-trade assets or markets.[3]

Some of the more common derivatives include forwards, futures, options, swaps, and variations of these such as synthetic collateralized debt obligations and credit default swaps. Most derivatives are traded over-the-counter (off-exchange) or on an exchange such as the Chicago Mercantile Exchange, while most insurance contracts have developed into a separate industry. In the United States, after the 2007–2008 financial crisis, there has been increased pressure to move derivatives to trade on exchanges.

Derivatives are one of the three main categories of financial instruments, the other two being equity (i.e., stocks or shares) and debt (i.e., bonds and mortgages). The oldest example of a derivative in history, attested to by Aristotle, is thought to be a contract transaction of olives, entered into by ancient Greek philosopher Thales, who made a profit in the exchange.[4] However, Aristotle did not define this arrangement as a derivative but as a monopoly (Aristotle's Politics, Book I, Chapter XI). Bucket shops, outlawed in 1936 in the US, are a more recent historical example.

Basics

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Derivatives are contracts between two parties that specify conditions (especially the dates, resulting values and definitions of the underlying variables, the parties' contractual obligations, and the notional amount) under which payments are to be made between the parties.[5][6] The assets include commodities, stocks, bonds, interest rates and currencies, but they can also be other derivatives, which adds another layer of complexity to proper valuation. The components of a firm's capital structure, e.g., bonds and stock, can also be considered derivatives, more precisely options, with the underlying being the firm's assets, but this is unusual outside of technical contexts.

From the economic point of view, financial derivatives are cash flows that are conditioned stochastically and discounted to present value. The market risk inherent in the underlying asset is attached to the financial derivative through contractual agreements and hence can be traded separately.[7] The underlying asset does not have to be acquired. Derivatives therefore allow the breakup of ownership and participation in the market value of an asset. This also provides a considerable amount of freedom regarding the contract design. That contractual freedom allows derivative designers to modify the participation in the performance of the underlying asset almost arbitrarily. Thus, the participation in the market value of the underlying can be effectively weaker, stronger (leverage effect), or implemented as inverse. Hence, specifically the market price risk of the underlying asset can be controlled in almost every situation.[7]

There are two groups of derivative contracts: the privately traded over-the-counter (OTC) derivatives such as swaps that do not go through an exchange or other intermediary, and exchange-traded derivatives (ETD) that are traded through specialized derivatives exchanges or other exchanges.

Derivatives are more common in the modern era, but their origins trace back several centuries. One of the oldest derivatives is rice futures, which have been traded on the Dojima Rice Exchange since the eighteenth century.[8] Derivatives are broadly categorized by the relationship between the underlying asset and the derivative (such as forward, option, swap); the type of underlying asset (such as equity derivatives, foreign exchange derivatives, interest rate derivatives, commodity derivatives, or credit derivatives); the market in which they trade (such as exchange-traded or over-the-counter); and their pay-off profile.

Derivatives may broadly be categorized as "lock" or "option" products. Lock products (such as swaps, futures, or forwards) obligate the contractual parties to the terms over the life of the contract. Option products (such as interest rate swaps) provide the buyer the right, but not the obligation to enter the contract under the terms specified.

Derivatives can be used either for risk management (i.e. to "hedge" by providing offsetting compensation in case of an undesired event, a kind of "insurance") or for speculation (i.e. making a financial "bet"). This distinction is important because the former is a prudent aspect of operations and financial management for many firms across many industries; the latter offers managers and investors a risky opportunity to increase profit, which may not be properly disclosed to stakeholders.

Along with many other financial products and services, derivatives reform is an element of the Dodd–Frank Wall Street Reform and Consumer Protection Act of 2010. The Act delegated many rule-making details of regulatory oversight to the Commodity Futures Trading Commission (CFTC) and those details are not finalized nor fully implemented as of late 2012.

Size of market

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To give an idea of the size of the derivative market, The Economist has reported that as of June 2011, the over-the-counter (OTC) derivatives market amounted to approximately $700 trillion, and the size of the market traded on exchanges totaled an additional $83 trillion.[9] For the fourth quarter 2017 the European Securities Market Authority estimated the size of European derivatives market at a size of €660 trillion with 74 million outstanding contracts.[10]

However, these are "notional" values, and some economists say that these aggregated values greatly exaggerate the market value and the true credit risk faced by the parties involved. For example, in 2010, while the aggregate of OTC derivatives exceeded $600 trillion, the value of the market was estimated to be much lower, at $21 trillion. The credit-risk equivalent of the derivative contracts was estimated at $3.3 trillion.[11]

Still, even these scaled-down figures represent huge amounts of money. For perspective, the budget for total expenditure of the United States government during 2012 was $3.5 trillion,[12] and the total current value of the U.S. stock market is an estimated $23 trillion.[13] Meanwhile, the global annual Gross Domestic Product is about $65 trillion.[14]

At least for one type of derivative, credit default swaps (CDS), for which the inherent risk is considered high [by whom?], the higher, nominal value remains relevant. It was this type of derivative that investment magnate Warren Buffett referred to in his famous 2002 speech in which he warned against "financial weapons of mass destruction".[15] CDS notional value in early 2012 amounted to $25.5 trillion, down from $55 trillion in 2008.[16]

Usage

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Derivatives are used for the following:

  • Hedge or to mitigate risk in the underlying, by entering into a derivative contract whose value moves in the opposite direction to their underlying position and cancels part or all of it out[17][18]
  • Create option ability where the value of the derivative is linked to a specific condition or event (e.g., the underlying reaching a specific price level)
  • Obtain exposure to the underlying where it is not possible to trade in the underlying (e.g., weather derivatives)[19]
  • Provide leverage (or gearing), such that a small movement in the underlying value can cause a large difference in the value of the derivative[20]
  • Speculate and make a profit if the value of the underlying asset moves the way they expect (e.g. moves in a given direction, stays in or out of a specified range, reaches a certain level)
  • Switch asset allocations between different asset classes without disturbing the underlying assets, as part of transition management
  • Avoid paying taxes. For example, an equity swap allows an investor to receive steady payments, e.g. based on SONIA rate, while avoiding paying capital gains tax and keeping the stock.
  • For arbitraging purpose, allowing a riskless profit by simultaneously entering into transactions into two or more markets.[21]

Mechanics and valuation

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Lock products are theoretically valued at zero at the time of execution and thus do not typically require an up-front exchange between the parties. Based upon movements in the underlying asset over time, however, the value of the contract will fluctuate, and the derivative may be either an asset (i.e., "in the money") or a liability (i.e., "out of the money") at different points throughout its life. Importantly, either party is therefore exposed to the credit quality of its counterparty and is interested in protecting itself in an event of default.

Option products have immediate value at the outset because they provide specified protection (intrinsic value) over a given time period (time value). One common form of option product familiar to many consumers is insurance for homes and automobiles. The insured would pay more for a policy with greater liability protections (intrinsic value) and one that extends for a year rather than six months (time value). Because of the immediate option value, the option purchaser typically pays an up front premium. Just like for lock products, movements in the underlying asset will cause the option's intrinsic value to change over time while its time value deteriorates steadily until the contract expires. An important difference between a lock product is that, after the initial exchange, the option purchaser has no further liability to its counterparty; upon maturity, the purchaser will execute the option if it has positive value (i.e., if it is "in the money") or expire at no cost (other than to the initial premium) (i.e., if the option is "out of the money").

Hedging

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Derivatives allow risk related to the price of the underlying asset to be transferred from one party to another. For example, a wheat farmer and a miller could sign a futures contract to exchange a specified amount of cash for a specified amount of wheat in the future. Both parties have reduced a future risk: for the wheat farmer, the uncertainty of the price, and for the miller, the availability of wheat. However, there is still the risk that no wheat will be available because of events unspecified by the contract, such as the weather, or that one party will renege on the contract. Although a third party, called a clearing house, insures a futures contract, not all derivatives are insured against counter-party risk.

From another perspective, the farmer and the miller both reduce a risk and acquire a risk when they sign the futures contract: the farmer reduces the risk that the price of wheat will fall below the price specified in the contract and acquires the risk that the price of wheat will rise above the price specified in the contract (thereby losing additional income that he could have earned). The miller, on the other hand, acquires the risk that the price of wheat will fall below the price specified in the contract (thereby paying more in the future than he otherwise would have) and reduces the risk that the price of wheat will rise above the price specified in the contract. In this sense, one party is the insurer (risk taker) for one type of risk, and the counter-party is the insurer (risk taker) for another type of risk.

Hedging also occurs when an individual or institution buys an asset (such as a commodity, a bond that has coupon payments, a stock that pays dividends, and so on) and sells it using a futures contract. The individual or institution has access to the asset for a specified amount of time, and can then sell it in the future at a specified price according to the futures contract. Of course, this allows the individual or institution the benefit of holding the asset, while reducing the risk that the future selling price will deviate unexpectedly from the market's current assessment of the future value of the asset.

 
Derivatives traders in the pit at the Chicago Board of Trade in 1993

Derivatives trading of this kind may serve the financial interests of certain particular businesses.[22] For example, a corporation borrows a large sum of money at a specific interest rate.[23] The interest rate on the loan reprices every six months. The corporation is concerned that the rate of interest may be much higher in six months. The corporation could buy a forward rate agreement (FRA), which is a contract to pay a fixed rate of interest six months after purchases on a notional amount of money.[24] If the interest rate after six months is above the contract rate, the seller will pay the difference to the corporation, or FRA buyer. If the rate is lower, the corporation will pay the difference to the seller. The purchase of the FRA serves to reduce the uncertainty concerning the rate increase and stabilize earnings.

Speculation

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Derivatives can be used to acquire risk, rather than to hedge against risk. Thus, some individuals and institutions will enter into a derivative contract to speculate on the value of the underlying asset. Speculators look to buy an asset in the future at a low price according to a derivative contract when the future market price is high, or to sell an asset in the future at a high price according to a derivative contract when the future market price is less.

Speculative trading in derivatives gained a great deal of notoriety in 1995 when Nick Leeson, a trader at Barings Bank, made poor and unauthorized investments in futures contracts. Through a combination of poor judgment, lack of oversight by the bank's management and regulators, and unfortunate events like the Kobe earthquake, Leeson incurred a $1.3 billion loss that bankrupted the centuries-old institution.[25]

Arbitrage

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Individuals and institutions may also look for arbitrage opportunities, as when the current buying price of an asset falls below the price specified in a futures contract to sell the asset.

Proportion used for hedging and speculation

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The true proportion of derivatives contracts used for hedging purposes is unknown,[26] but it appears to be relatively small.[27][28] Also, derivatives contracts account for only 3–6% of the median firms' total currency and interest rate exposure.[29] Nonetheless, we know that many firms' derivatives activities have at least some speculative component for a variety of reasons.[29]

Types

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In broad terms, there are two groups of derivative contracts, which are distinguished by the way they are traded in the market:

Over-the-counter derivatives

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Over-the-counter (OTC) derivatives are contracts that are traded (and privately negotiated) directly between two parties, without going through an exchange or other intermediary. Products such as swaps, forward rate agreements, exotic options – and other exotic derivatives – are almost always traded in this way. The OTC derivative market is the largest market for derivatives, and is largely unregulated with respect to disclosure of information between the parties, since the OTC market is made up of banks and other highly sophisticated parties, such as hedge funds. Reporting of OTC amounts is difficult because trades can occur in private, without activity being visible on any exchanges

According to the Bank for International Settlements, who first surveyed OTC derivatives in 1995,[30] reported that the "gross market value, which represent the cost of replacing all open contracts at the prevailing market prices, ... increased by 74% since 2004, to $11 trillion at the end of June 2007 (BIS 2007:24)."[30] Positions in the OTC derivatives market increased to $516 trillion at the end of June 2007, 135% higher than the level recorded in 2004. The total outstanding notional amount is US$708 trillion (as of June 2011).[31] Of this total notional amount, 67% are interest rate contracts, 8% are credit default swaps (CDS), 9% are foreign exchange contracts, 2% are commodity contracts, 1% are equity contracts, and 12% are other. Because OTC derivatives are not traded on an exchange, there is no central counter-party. Therefore, they are subject to counterparty risk, like an ordinary contract, since each counter-party relies on the other to perform.

Exchange-traded derivatives

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Exchange-traded derivatives (ETD) are those derivatives instruments that are traded via specialized derivatives exchanges or other exchanges. A derivatives exchange is a market where individuals trade standardized contracts that have been defined by the exchange.[5] A derivatives exchange acts as an intermediary to all related transactions, and takes initial margin from both sides of the trade to act as a guarantee. The world's largest[32] derivatives exchanges (by number of transactions) are the Korea Exchange (which lists KOSPI Index Futures & Options), Eurex (which lists a wide range of European products such as interest rate & index products), and CME Group (made up of the 2007 merger of the Chicago Mercantile Exchange and the Chicago Board of Trade and the 2008 acquisition of the New York Mercantile Exchange). According to BIS, the combined turnover in the world's derivatives exchanges totaled US$344 trillion during Q4 2005. By December 2007 the Bank for International Settlements reported[30] that "derivatives traded on exchanges surged 27% to a record $681 trillion."[30]

Inverse ETFs and leveraged ETFs

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Inverse exchange-traded funds (IETFs) and leveraged exchange-traded funds (LETFs)[33] are two special types of exchange traded funds (ETFs) that are available to common traders and investors on major exchanges like the NYSE and Nasdaq. To maintain these products' net asset value, these funds' administrators must employ more sophisticated financial engineering methods than what's usually required for maintenance of traditional ETFs. These instruments must also be regularly rebalanced and re-indexed each day.

Common derivative contract

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Some of the common variants of derivative contracts are as follows:

  1. Forwards: tailored contract between two parties, where payment takes place at a specific time in the future at today's pre-determined price.
  2. Futures: contracts to buy or sell an asset on a future date at a price specified today. A futures contract differs from a forward contract in that the futures contract is a standardized contract written by a clearing house that operates an exchange where the contract can be bought and sold; the forward contract is a non-standardized contract written by the parties themselves.
  3. Options: contracts that give the owner the right, but not the obligation, to buy (in the case of a call option) or sell (in the case of a put option) an asset. The price at which the sale takes place is known as the strike price, and is specified at the time the parties enter into the option. The option contract also specifies a maturity date. In the case of a European option, the owner has the right to require the sale to take place on (but not before) the maturity date; in the case of an American option, the owner can require the sale to take place at any time up to the maturity date. If the owner of the contract exercises this right, the counter-party has the obligation to carry out the transaction. Options are of two types: call option and put option.
  4. Binary options: contracts that provide the owner with an all-or-nothing profit profile.
  5. Warrants: apart from the commonly used short-dated options which have a maximum maturity period of one year, there exist certain long-dated options as well, known as warrants. These are generally traded over the counter.
  6. Swaps: contracts to exchange cash (flows) on or before a specified future date based on the underlying value of currencies exchange rates, bonds/interest rates, commodities exchange, stocks or other assets.
Swaps can basically be categorized into Interest rate swap and Currency swap.[34]

Some common examples of these derivatives are the following:

UNDERLYING CONTRACT TYPES
Exchange-traded futures Exchange-traded options OTC swap OTC forward OTC option
Equity DJIA Index future
Single-stock future
Option on DJIA Index future
Single-share option
Equity swap Back-to-back
Repurchase agreement
Stock option
Warrant
Turbo warrant
Interest rate Eurodollar future
Euribor future
Option on Eurodollar future
Option on Euribor future
Interest rate swap Forward rate agreement Interest rate cap and floor
Swaption
Basis swap
Bond option
Credit Bond future Option on Bond future Credit default swap
Total return swap
Repurchase agreement Credit default option
Foreign exchange Currency future Option on currency future Currency swap Currency forward Currency option
Commodity WTI crude oil futures Weather derivative Commodity swap Iron ore forward contract Gold option

Collateralized debt obligation

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A collateralized debt obligation (CDO) is a type of structured asset-backed security (ABS). An "asset-backed security" is used as an umbrella term for a type of security backed by a pool of assets—including collateralized debt obligations and mortgage-backed securities (MBS) (Example: "The capital market in which asset-backed securities are issued and traded is composed of three main categories: ABS, MBS and CDOs".[35])—and sometimes for a particular type of that security—one backed by consumer loans (example: "As a rule of thumb, securitization issues backed by mortgages are called MBS, and securitization issues backed by debt obligations are called CDO, [and] Securitization issues backed by consumer-backed products—car loans, consumer loans and credit cards, among others—are called ABS.) [36] Originally developed for the corporate debt markets, over time CDOs evolved to encompass the mortgage and mortgage-backed security (MBS) markets.[37]

Like other private-label securities backed by assets, a CDO can be thought of as a promise to pay investors in a prescribed sequence, based on the cash flow the CDO collects from the pool of bonds or other assets it owns. The CDO is "sliced" into "tranches", which "catch" the cash flow of interest and principal payments in sequence based on seniority.[38] If some loans default and the cash collected by the CDO is insufficient to pay all of its investors, those in the lowest, most "junior" tranches suffer losses first. The last to lose payment from default are the safest, most senior tranches. Consequently, coupon payments (and interest rates) vary by tranche with the safest/most senior tranches paying the lowest and the lowest tranches paying the highest rates to compensate for higher default risk. As an example, a CDO might issue the following tranches in order of safeness: Senior AAA (sometimes known as "super senior"); Junior AAA; AA; A; BBB; Residual.[39]

Separate special-purpose entities—rather than the parent investment bank—issue the CDOs and pay interest to investors. As CDOs developed, some sponsors repackaged tranches into yet another iteration called "CDO-Squared" or the "CDOs of CDOs".[39] In the early 2000s, CDOs were generally diversified,[40] but by 2006–2007—when the CDO market grew to hundreds of billions of dollars—this changed. CDO collateral became dominated not by loans, but by lower level (BBB or A) tranches recycled from other asset-backed securities, whose assets were usually non-prime mortgages.[41] These CDOs have been called "the engine that powered the mortgage supply chain" for nonprime mortgages,[42] and are credited with giving lenders greater incentive to make non-prime loans[43] leading up to the 2007-9 subprime mortgage crisis.

Credit default swap

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A credit default swap (CDS) is a financial swap agreement that the seller of the CDS will compensate the buyer (the creditor of the reference loan) in the event of a loan default (by the debtor) or other credit event. The buyer of the CDS makes a series of payments (the CDS "fee" or "spread") to the seller and, in exchange, receives a payoff if the loan defaults. It was invented by Blythe Masters from JP Morgan in 1994. In the event of default the buyer of the CDS receives compensation (usually the face value of the loan), and the seller of the CDS takes possession of the defaulted loan. However, anyone with sufficient collateral to trade with a bank or hedge fund can purchase a CDS, even buyers who do not hold the loan instrument and who have no direct insurable interest in the loan (these are called "naked" CDSs). If there are more CDS contracts outstanding than bonds in existence, a protocol exists to hold a credit event auction; the payment received is usually substantially less than the face value of the loan.[44] Credit default swaps have existed since the early 1990s, and increased in use after 2003. By the end of 2007, the outstanding CDS amount was $62.2 trillion,[45] falling to $26.3 trillion by mid-year 2010[46] but reportedly $25.5[47] trillion in early 2012. CDSs are not traded on an exchange and there is no required reporting of transactions to a government agency.[48] During the 2007–2008 financial crisis, the lack of transparency in this large market became a concern to regulators as it could pose a systemic risk.[49]

[50][51] In March 2010, the [DTCC] Trade Information Warehouse announced it would give regulators greater access to its credit default swaps database.[52] CDS data can be used by financial professionals, regulators, and the media to monitor how the market views credit risk of any entity on which a CDS is available, which can be compared to that provided by credit rating agencies. U.S. courts may soon be following suit. Most CDSs are documented using standard forms drafted by the International Swaps and Derivatives Association (ISDA), although there are many variants.[49] In addition to the basic, single-name swaps, there are basket default swaps (BDSs), index CDSs, funded CDSs (also called credit-linked notes), as well as loan-only credit default swaps (LCDS). In addition to corporations and governments, the reference entity can include a special-purpose vehicle issuing asset-backed securities.[53] Some claim that derivatives such as CDS are potentially dangerous in that they combine priority in bankruptcy with a lack of transparency. A CDS can be unsecured (without collateral) and be at higher risk for a default.

Forwards

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In finance, a forward contract or simply a forward is a non-standardized contract between two parties to buy or to sell an asset at a specified future time at an amount agreed upon today, making it a type of derivative instrument.[5][54] This is in contrast to a spot contract, which is an agreement to buy or sell an asset on its spot date, which may vary depending on the instrument, for example most of the FX contracts have Spot Date two business days from today. The party agreeing to buy the underlying asset in the future assumes a long position, and the party agreeing to sell the asset in the future assumes a short position. The price agreed upon is called the delivery price, which is equal to the forward price at the time the contract is entered into. The price of the underlying instrument, in whatever form, is paid before control of the instrument changes. This is one of the many forms of buy/sell orders where the time and date of trade is not the same as the value date where the securities themselves are exchanged.

The forward price of such a contract is commonly contrasted with the spot price, which is the price at which the asset changes hands on the spot date. The difference between the spot and the forward price is the forward premium or forward discount, generally considered in the form of a profit, or loss, by the purchasing party. Forwards, like other derivative securities, can be used to hedge risk (typically currency or exchange rate risk), as a means of speculation, or to allow a party to take advantage of a quality of the underlying instrument which is time-sensitive.

A closely related contract is a futures contract; they differ in certain respects. Forward contracts are very similar to futures contracts, except they are not exchange-traded, or defined on standardized assets.[55] Forwards also typically have no interim partial settlements or "true-ups" in margin requirements like futures—such that the parties do not exchange additional property securing the party at gain and the entire unrealized gain or loss builds up while the contract is open. However, being traded over the counter (OTC), forward contracts specification can be customized and may include mark-to-market and daily margin calls. Hence, a forward contract arrangement might call for the loss party to pledge collateral or additional collateral to better secure the party at gain.[clarification needed] In other words, the terms of the forward contract will determine the collateral calls based upon certain "trigger" events relevant to a particular counterparty such as among other things, credit ratings, value of assets under management or redemptions over a specific time frame (e.g., quarterly, annually).

Futures

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In finance, a 'futures contract' (more colloquially, futures) is a standardized contract between two parties to buy or sell a specified asset of standardized quantity and quality for a price agreed upon today (the futures price) with delivery and payment occurring at a specified future date, the delivery date, making it a derivative product (i.e. a financial product that is derived from an underlying asset). The contracts are negotiated at a futures exchange, which acts as an intermediary between buyer and seller. The party agreeing to buy the underlying asset in the future, the "buyer" of the contract, is said to be "long", and the party agreeing to sell the asset in the future, the "seller" of the contract, is said to be "short".

While the futures contract specifies a trade taking place in the future, the purpose of the futures exchange is to act as intermediary and mitigate the risk of default by either party in the intervening period. For this reason, the futures exchange requires both parties to put up an initial amount of cash (performance bond), the margin. Margins, sometimes set as a percentage of the value of the futures contract, need to be proportionally maintained at all times during the life of the contract to underpin this mitigation because the price of the contract will vary in keeping with supply and demand and will change daily and thus one party or the other will theoretically be making or losing money. To mitigate risk and the possibility of default by either party, the product is marked to market on a daily basis whereby the difference between the prior agreed-upon price and the actual daily futures price is settled on a daily basis. This is sometimes known as the variation margin where the futures exchange will draw money out of the losing party's margin account and put it into the other party's thus ensuring that the correct daily loss or profit is reflected in the respective account. If the margin account goes below a certain value set by the Exchange, then a margin call is made and the account owner must replenish the margin account. This process is known as "marking to market". Thus on the delivery date, the amount exchanged is not the specified price on the contract but the spot value (i.e., the original value agreed upon, since any gain or loss has already been previously settled by marking to market). Upon marketing the strike price is often reached and creates much income for the "caller".

A closely related contract is a forward contract. A forward is like a futures in that it specifies the exchange of goods for a specified price at a specified future date. However, a forward is not traded on an exchange and thus does not have the interim partial payments due to marking to market. Nor is the contract standardized, as on the exchange. Unlike an option, both parties of a futures contract must fulfill the contract on the delivery date. The seller delivers the underlying asset to the buyer, or, if it is a cash-settled futures contract, then cash is transferred from the futures trader who sustained a loss to the one who made a profit. To exit the commitment prior to the settlement date, the holder of a futures position can close out its contract obligations by taking the opposite position on another futures contract on the same asset and settlement date. The difference in futures prices is then a profit or loss.

Mortgage-backed securities

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A mortgage-backed security (MBS) is an asset-backed security that is secured by a mortgage, or more commonly a collection ("pool") of sometimes hundreds of mortgages. The mortgages are sold to a group of individuals (a government agency or investment bank) that "securitizes", or packages, the loans together into a security that can be sold to investors. The mortgages of an MBS may be residential or commercial, depending on whether it is an Agency MBS or a Non-Agency MBS; in the United States they may be issued by structures set up by government-sponsored enterprises like Fannie Mae or Freddie Mac, or they can be "private-label", issued by structures set up by investment banks. The structure of the MBS may be known as "pass-through", where the interest and principal payments from the borrower or homebuyer pass through it to the MBS holder, or it may be more complex, made up of a pool of other MBSs. Other types of MBS include collateralized mortgage obligations (CMOs, often structured as real estate mortgage investment conduits) and collateralized debt obligations (CDOs).[56]

The shares of subprime MBSs issued by various structures, such as CMOs, are not identical but rather issued as tranches (French for "slices"), each with a different level of priority in the debt repayment stream, giving them different levels of risk and reward. Tranches—especially the lower-priority, higher-interest tranches—of an MBS are/were often further repackaged and resold as collaterized debt obligations.[57] These subprime MBSs issued by investment banks were a major issue in the subprime mortgage crisis of 2006–2008 . The total face value of an MBS decreases over time, because like mortgages, and unlike bonds, and most other fixed-income securities, the principal in an MBS is not paid back as a single payment to the bond holder at maturity but rather is paid along with the interest in each periodic payment (monthly, quarterly, etc.). This decrease in face value is measured by the MBS's "factor", the percentage of the original "face" that remains to be repaid.

Options

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In finance, an option is a contract which gives the buyer (the owner) the right, but not the obligation, to buy or sell an underlying asset or instrument at a specified strike price on or before a specified date. The seller has the corresponding obligation to fulfill the transaction—that is to sell or buy—if the buyer (owner) "exercises" the option. The buyer pays a premium to the seller for this right. An option that conveys to the owner the right to buy something at a certain price is a "call option"; an option that conveys the right of the owner to sell something at a certain price is a "put option". Both are commonly traded, but for clarity, the call option is more frequently discussed. Options valuation is a topic of ongoing research in academic and practical finance. In basic terms, the value of an option is commonly decomposed into two parts:

  • The first part is the "intrinsic value", defined as the difference between the market value of the underlying and the strike price of the given option.
  • The second part is the "time value", which depends on a set of other factors which, through a multivariable, non-linear interrelationship, reflect the discounted expected value of that difference at expiration.

Although options valuation has been studied since the 19th century, the contemporary approach is based on the Black–Scholes model, which was first published in 1973.[58][unreliable source?][59]

Options contracts have been known for many centuries. However, both trading activity and academic interest increased when, as from 1973, options were issued with standardized terms and traded through a guaranteed clearing house at the Chicago Board Options Exchange. Today, many options are created in a standardized form and traded through clearing houses on regulated options exchanges, while other over-the-counter options are written as bilateral, customized contracts between a single buyer and seller, one or both of which may be a dealer or market-maker. Options are part of a larger class of financial instruments known as derivative products or simply derivatives.[5][60]

Swaps

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A swap is a derivative in which two counterparties exchange cash flows of one party's financial instrument for those of the other party's financial instrument. The benefits in question depend on the type of financial instruments involved. For example, in the case of a swap involving two bonds, the benefits in question can be the periodic interest (coupon) payments associated with such bonds. Specifically, two counterparties agree to the exchange one stream of cash flows against another stream. These streams are called the swap's "legs". The swap agreement defines the dates when the cash flows are to be paid and the way they are accrued and calculated. Usually at the time when the contract is initiated, at least one of these series of cash flows is determined by an uncertain variable such as a floating interest rate, foreign exchange rate, equity price, or commodity price.[5]

The cash flows are calculated over a notional principal amount. Contrary to a future, a forward or an option, the notional amount is usually not exchanged between counterparties. Consequently, swaps can be in cash or collateral. Swaps can be used to hedge certain risks such as interest rate risk, or to speculate on changes in the expected direction of underlying prices.

Swaps were first introduced to the public in 1981 when IBM and the World Bank entered into a swap agreement.[61] Today, swaps are among the most heavily traded financial contracts in the world: the total amount of interest rates and currency swaps outstanding is more than $348 trillion in 2010, according to the Bank for International Settlements (BIS).[citation needed] The five generic types of swaps, in order of their quantitative importance, are: interest rate swaps, currency swaps, credit swaps, commodity swaps and equity swaps (there are many other types).

Economic function of the derivative market

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Some of the salient economic functions of the derivative market include:

  1. Prices in a structured derivative market not only replicate the discernment of the market participants about the future but also lead the prices of underlying to the professed future level. On the expiration of the derivative contract, the prices of derivatives congregate with the prices of the underlying. Therefore, derivatives are essential tools to determine both current and future prices.
  2. The derivatives market reallocates risk from the people who prefer risk aversion to the people who have an appetite for risk.
  3. The intrinsic nature of derivatives market associates them to the underlying spot market. Due to derivatives there is a considerable increase in trade volumes of the underlying spot market. The dominant factor behind such an escalation is increased participation by additional players who would not have otherwise participated due to absence of any procedure to transfer risk.
  4. As supervision, reconnaissance of the activities of various participants becomes tremendously difficult in assorted markets; the establishment of an organized form of market becomes all the more imperative. Therefore, in the presence of an organized derivatives market, speculation can be controlled, resulting in a more meticulous environment.
  5. Third parties can use publicly available derivative prices as educated predictions of uncertain future outcomes, for example, the likelihood that a corporation will default on its debts.

In a nutshell, there is a substantial increase in savings and investment in the long run due to augmented activities by derivative market participant.[62]

Valuation

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Total world derivatives from 1998 to 2007[63] compared to total world wealth in the year 2000[64]

Market and arbitrage-free prices

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Two common measures of value are:

  • Market price, i.e. the price at which traders are willing to buy or sell the contract
  • Arbitrage-free price, meaning that no risk-free profits can be made by trading in these contracts (see rational pricing)

Determining the market price

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For exchange-traded derivatives, market price is usually transparent (often published in real time by the exchange, based on all the current bids and offers placed on that particular contract at any one time). Complications can arise with OTC or floor-traded contracts though, as trading is handled manually, making it difficult to automatically broadcast prices. In particular with OTC contracts, there is no central exchange to collate and disseminate prices.

Determining the arbitrage-free price

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The arbitrage-free price for a derivatives contract can be complex, and there are many different variables to consider. Arbitrage-free pricing is a central topic of financial mathematics. For futures/forwards the arbitrage free price is relatively straightforward, involving the price of the underlying together with the cost of carry (income received less interest costs), although there can be complexities.

However, for options and more complex derivatives, pricing involves developing a complex pricing model: understanding the stochastic process of the price of the underlying asset is often crucial. A key equation for the theoretical valuation of options is the Black–Scholes formula, which is based on the assumption that the cash flows from a European stock option can be replicated by a continuous buying and selling strategy using only the stock. A simplified version of this valuation technique is the binomial options model.

OTC represents the biggest challenge in using models to price derivatives. Since these contracts are not publicly traded, no market price is available to validate the theoretical valuation. Most of the model's results are input-dependent (meaning the final price depends heavily on how we derive the pricing inputs).[65] Therefore, it is common that OTC derivatives are priced by Independent Agents that both counterparties involved in the deal designate upfront (when signing the contract).

Risks

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Derivatives are often subject to the following criticisms; particularly since the 2007–2008 financial crisis, the discipline of Risk management has developed attempting to address the below and other risks - see Financial risk management § Banking.

Hidden tail risk

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According to Raghuram Rajan, a former chief economist of the International Monetary Fund (IMF), "... it may well be that the managers of these firms [investment funds] have figured out the correlations between the various instruments they hold and believe they are hedged. Yet as Chan and others (2005) point out, the lessons of summer 1998 following the default on Russian government debt is that correlations that are zero or negative in normal times can turn overnight to one – a phenomenon they term "phase lock-in". A hedged position "can become unhedged at the worst times, inflicting substantial losses on those who mistakenly believe they are protected".[66] See the FRTB framework, which seeks to address this to some extent.

Leverage

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The use of derivatives can result in large losses because of the use of leverage, or borrowing. Derivatives allow investors to earn large returns from small movements in the underlying asset's price. However, investors could lose large amounts if the price of the underlying moves against them significantly. There have been several instances of massive losses in derivative markets, such as the following:

  • American International Group (AIG) lost more than US$18 billion through a subsidiary over the preceding three quarters on credit default swaps (CDSs).[67] The United States Federal Reserve Bank announced the creation of a secured credit facility of up to US$85 billion, to prevent the company's collapse by enabling AIG to meet its obligations to deliver additional collateral to its credit default swap trading partners.[68]
  • The loss of US$7.2 Billion by Société Générale in January 2008 through mis-use of futures contracts.
  • The loss of US$6.4 billion in the failed fund Amaranth Advisors, which was long natural gas in September 2006 when the price plummeted.
  • The loss of US$4.6 billion in the failed fund Long-Term Capital Management in 1998.
  • The loss of US$1.3 billion equivalent in oil derivatives in 1993 and 1994 by Metallgesellschaft AG.[69]
  • The loss of US$1.2 billion equivalent in equity derivatives in 1995 by Barings Bank.[70]
  • UBS AG, Switzerland's biggest bank, suffered a $2 billion loss through unauthorized trading discovered in September 2011.[71]

Derivatives typically have a large notional value. As such, there is the danger that their use could result in losses for which the investor would be unable to compensate. The possibility that this could lead to a chain reaction ensuing in an economic crisis was pointed out by famed investor Warren Buffett in Berkshire Hathaway's 2002 annual report. Buffett called them 'financial weapons of mass destruction.' A potential problem with derivatives is that they comprise an increasingly larger notional amount of assets which may lead to distortions in the underlying capital and equities markets themselves. Investors begin to look at the derivatives markets to make a decision to buy or sell securities and so what was originally meant to be a market to transfer risk now becomes a leading indicator.(See Berkshire Hathaway Annual Report for 2002)

Counterparty risk

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Some derivatives (especially swaps) expose investors to counterparty risk, or risk arising from the other party in a financial transaction. Counterparty risk results from the differences in the current price versus the expected future settlement price.[72] Different types of derivatives have different levels of counter party risk. For example, standardized stock options by law require the party at risk to have a certain amount deposited with the exchange, showing that they can pay for any losses; banks that help businesses swap variable for fixed rates on loans may do credit checks on both parties. However, in private agreements between two companies, for example, there may not be benchmarks for performing due diligence and risk analysis.

Financial reform and government regulation

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Under US law and the laws of most other developed countries, derivatives have special legal exemptions that make them a particularly attractive legal form to extend credit. The strong creditor protections afforded to derivatives counterparties, in combination with their complexity and lack of transparency however, can cause capital markets to underprice credit risk. This can contribute to credit booms, and increase systemic risks. Indeed, the use of derivatives to conceal credit risk from third parties while protecting derivative counterparties contributed to the 2007–2008 financial crisis in the United States.

In the context of a 2010 examination of the ICE Trust, an industry self-regulatory body, Gary Gensler, the chairman of the Commodity Futures Trading Commission which regulates most derivatives, was quoted saying that the derivatives marketplace as it functions now "adds up to higher costs to all Americans". More oversight of the banks in this market is needed, he also said. Additionally, the report said, "[t]he Department of Justice is looking into derivatives, too. The department's antitrust unit is actively investigating 'the possibility of anticompetitive practices in the credit derivatives clearing, trading and information services industries', according to a department spokeswoman."[73]

For legislators and committees responsible for financial reform related to derivatives in the United States and elsewhere, distinguishing between hedging and speculative derivatives activities has been a nontrivial challenge. The distinction is critical because regulation should help to isolate and curtail speculation with derivatives, especially for "systemically significant" institutions whose default could be large enough to threaten the entire financial system. At the same time, the legislation should allow for responsible parties to hedge risk without unduly tying up working capital as collateral that firms may better employ elsewhere in their operations and investment.[74] In this regard, it is important to distinguish between financial (e.g. banks) and non-financial end-users of derivatives (e.g. real estate development companies) because these firms' derivatives usage is inherently different. More importantly, the reasonable collateral that secures these different counterparties can be very different. The distinction between these firms is not always straight forward (e.g. hedge funds or even some private equity firms do not neatly fit either category). Finally, even financial users must be differentiated, as 'large' banks may classified as "systemically significant" whose derivatives activities must be more tightly monitored and restricted than those of smaller, local and regional banks.

Over-the-counter dealing will be less common as the Dodd–Frank Wall Street Reform and Consumer Protection Act comes into effect. The law mandated the clearing of certain swaps at registered exchanges and imposed various restrictions on derivatives. To implement Dodd-Frank, the CFTC developed new rules in at least 30 areas. The Commission determines which swaps are subject to mandatory clearing and whether a derivatives exchange is eligible to clear a certain type of swap contract.

Nonetheless, the above and other challenges of the rule-making process have delayed full enactment of aspects of the legislation relating to derivatives. The challenges are further complicated by the necessity to orchestrate globalized financial reform among the nations that comprise the world's major financial markets, a primary responsibility of the Financial Stability Board whose progress is ongoing.[75]

In the U.S., by February 2012 the combined effort of the SEC and CFTC had produced over 70 proposed and final derivatives rules.[76] However, both of them had delayed adoption of a number of derivatives regulations because of the burden of other rule-making, litigation and opposition to the rules, and many core definitions (such as the terms "swap", "security-based swap", "swap dealer", "security-based swap dealer", "major swap participant" and "major security-based swap participant") had still not been adopted.[76] SEC Chairman Mary Schapiro opined: "At the end of the day, it probably does not make sense to harmonize everything [between the SEC and CFTC rules] because some of these products are quite different and certainly the market structures are quite different."[77] On February 11, 2015, the Securities and Exchange Commission (SEC) released two final rules toward establishing a reporting and public disclosure framework for security-based swap transaction data.[78] The two rules are not completely harmonized with the requirements with CFTC requirements.

 
Country leaders at the 2009 G-20 Pittsburgh summit

In November 2012, the SEC and regulators from Australia, Brazil, the European Union, Hong Kong, Japan, Ontario, Quebec, Singapore, and Switzerland met to discuss reforming the OTC derivatives market, as had been agreed by leaders at the 2009 G-20 Pittsburgh summit in September 2009.[79] In December 2012, they released a joint statement to the effect that they recognized that the market is a global one and "firmly support the adoption and enforcement of robust and consistent standards in and across jurisdictions", with the goals of mitigating risk, improving transparency, protecting against market abuse, preventing regulatory gaps, reducing the potential for arbitrage opportunities, and fostering a level playing field for market participants.[79] They also agreed on the need to reduce regulatory uncertainty and provide market participants with sufficient clarity on laws and regulations by avoiding, to the extent possible, the application of conflicting rules to the same entities and transactions, and minimizing the application of inconsistent and duplicative rules.[79] At the same time, they noted that "complete harmonization – perfect alignment of rules across jurisdictions" would be difficult, because of jurisdictions' differences in law, policy, markets, implementation timing, and legislative and regulatory processes.[79]

On December 20, 2013, the CFTC provided information on its swaps regulation "comparability" determinations. The release addressed the CFTC's cross-border compliance exceptions. Specifically it addressed which entity level and in some cases transaction-level requirements in six jurisdictions (Australia, Canada, the European Union, Hong Kong, Japan, and Switzerland) it found comparable to its own rules, thus permitting non-US swap dealers, major swap participants, and the foreign branches of US Swap Dealers and major swap participants in these jurisdictions to comply with local rules in lieu of Commission rules.[80]

Reporting

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Mandatory reporting regulations are being finalized in a number of countries, such as Dodd Frank Act in the US, the European Market Infrastructure Regulations (EMIR) in Europe, as well as regulations in Hong Kong, Japan, Singapore, Canada, and other countries.[81] The OTC Derivatives Regulators Forum (ODRF), a group of over 40 worldwide regulators, provided trade repositories with a set of guidelines regarding data access to regulators, and the Financial Stability Board and CPSS IOSCO also made recommendations in with regard to reporting.[81]

DTCC, through its "Global Trade Repository" (GTR) service, manages global trade repositories for interest rates, and commodities, foreign exchange, credit, and equity derivatives.[81] It makes global trade reports to the CFTC in the U.S., and plans to do the same for ESMA in Europe and for regulators in Hong Kong, Japan, and Singapore.[81] It covers cleared and uncleared OTC derivatives products, whether or not a trade is electronically processed or bespoke.[81][82][83]

Glossary

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  • Bilateral netting: A legally enforceable arrangement between a bank and a counter-party that creates a single legal obligation covering all included individual contracts. This means that a bank's obligation, in the event of the default or insolvency of one of the parties, would be the net sum of all positive and negative fair values of contracts included in the bilateral netting arrangement.
  • Counterparty: The legal and financial term for the other party in a financial transaction.
  • Credit derivative: A contract that transfers credit risk from a protection buyer to a credit protection seller. Credit derivative products can take many forms, such as credit default swaps, credit linked notes and total return swaps.
  • Derivative: A financial contract whose value is derived from the performance of assets, interest rates, currency exchange rates, or indexes. Derivative transactions include a wide assortment of financial contracts including structured debt obligations and deposits, swaps, futures, options, caps, floors, collars, forwards and various combinations thereof.
  • Exchange-traded derivative contracts: Standardized derivative contracts (e.g., futures contracts and options) that are transacted on an organized futures exchange.
  • Gross negative fair value: The sum of the fair values of contracts where the bank owes money to its counter-parties, without taking into account netting. This represents the maximum losses the bank's counter-parties would incur if the bank defaults and there is no netting of contracts, and no bank collateral was held by the counter-parties.
  • Gross positive fair value: The sum total of the fair values of contracts where the bank is owed money by its counter-parties, without taking into account netting. This represents the maximum losses a bank could incur if all its counter-parties default and there is no netting of contracts, and the bank holds no counter-party collateral.
  • High-risk mortgage securities: Securities where the price or expected average life is highly sensitive to interest rate changes, as determined by the U.S. Federal Financial Institutions Examination Council policy statement on high-risk mortgage securities.
  • Notional amount: The nominal or face amount that is used to calculate payments made on swaps and other risk management products. This amount generally does not change hands and is thus referred to as notional.
  • Over-the-counter (OTC) derivative contracts: Privately negotiated derivative contracts that are transacted off organized futures exchanges.
  • Structured notes: Non-mortgage-backed debt securities, whose cash flow characteristics depend on one or more indices and / or have embedded forwards or options.
  • Total risk-based capital: The sum of tier 1 plus tier 2 capital. Tier 1 capital consists of common shareholders equity, perpetual preferred shareholders equity with noncumulative dividends, retained earnings, and minority interests in the equity accounts of consolidated subsidiaries. Tier 2 capital consists of subordinated debt, intermediate-term preferred stock, cumulative and long-term preferred stock, and a portion of a bank's allowance for loan and lease losses.

See also

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References

edit
  1. ^ Derivatives (Report). Office of the Comptroller of the Currency, U.S. Department of Treasury. Retrieved February 15, 2013. A derivative is a financial contract whose value is derived from the performance of some underlying market factors, such as interest rates, currency exchange rates, and commodity, credit, or equity prices. Derivative transactions include an assortment of financial contracts, including structured debt obligations and deposits, swaps, futures, options, caps, floors, collars, forwards, and various combinations thereof.
  2. ^ "Derivative Definition", Investopedia
  3. ^ Koehler, Christian (May 31, 2011). "The Relationship between the Complexity of Financial Derivatives and Systemic Risk". pp. 10–11. SSRN 2511541.
  4. ^ Crawford, George; Sen, Bidyut (1996). Derivatives for Decision Makers: Strategic Management Issues. John Wiley & Sons. ISBN 9780471129943. Retrieved June 15, 2016.
  5. ^ a b c d e Hull, John C. (2006). Options, Futures and another Derivatives (6th ed.). New Jersey: Prentice Hall. ISBN 978-0131499089.
  6. ^ Mark Rubinstein (1999). Rubinstein on Derivatives. Risk Books. ISBN 978-1-899332-53-3.
  7. ^ a b Koehler, Christian (May 31, 2011). "The Relationship between the Complexity of Financial Derivatives and Systemic Risk". p. 10. SSRN 2511541.
  8. ^ Kaori Suzuki; David Turner (December 10, 2005). "Sensitive politics over Japan's staple crop delays rice futures plan". The Financial Times. Retrieved October 23, 2010.
  9. ^ "Clear and Present Danger; Centrally cleared derivatives.(clearing houses)". The Economist. Economist Newspaper Ltd.(subscription required). April 12, 2012. Retrieved May 10, 2013.
  10. ^ "ESMA data analysis values EU derivatives market at €660 trillion with central clearing increasing significantly". www.esma.europa.eu. Retrieved October 19, 2018.
  11. ^ Liu, Qiao; Lejot, Paul (2013). "Debt, Derivatives and Complex Interactions.". Finance in Asia: Institutions, Regulation and Policy. Douglas W. Arne. New York: Routledge. p. 343. ISBN 978-0-415-42319-9.
  12. ^ The Budget and Economic Outlook: Fiscal Years 2013 to 2023 (PDF). Congressional Budget Office. February 5, 2013. Retrieved March 15, 2013.
  13. ^ "Swapping bad ideas: A big battle is unfolding over an even bigger market". The Economist. April 27, 2013. Retrieved May 10, 2013.
  14. ^ "World GDP: In search of growth". The Economist. Economist Newspaper Ltd. May 25, 2011. Retrieved May 10, 2013.
  15. ^ Buffett warns on investment 'time bomb', BBC, March 4, 2003
  16. ^ Sheridan, Barrett (April 2008). "600,000,000,000,000?". Newsweek Inc.[dead link]
  17. ^ Khullar, Sanjeev (2009). "Using Derivatives to Create Alpha". In John M. Longo (ed.). Hedge Fund Alpha: A Framework for Generating and Understanding Investment Performance. Singapore: World Scientific. p. 105. ISBN 978-981-283-465-2. Retrieved September 14, 2011.
  18. ^ Lemke and Lins, Soft Dollars and Other Trading Activities, §§2:47–2:54 (Thomson West, 2013–2014 ed.).
  19. ^ Don M. Chance; Robert Brooks (2010). "Advanced Derivatives and Strategies". Introduction to Derivatives and Risk Management (8th ed.). Mason, OH: Cengage Learning. pp. 483–515. ISBN 978-0-324-60120-6. Retrieved September 14, 2011.
  20. ^ Shirreff, David (2004). "Derivatives and leverage". Dealing With Financial Risk. The Economist. p. 23. ISBN 978-1-57660-162-4. Retrieved September 14, 2011.
  21. ^ Hull, John C. (2014). "Options, Futures, and Other Derivatives (9th Edition)", Pearson, pp. 16–17. ISBN 0133456315
  22. ^ Peterson, Sam (2010), "There's a Derivative in Your Cereal", The Atlantic.
  23. ^ Chisolm, Derivatives Demystified (Wiley 2004)
  24. ^ Chisolm, Derivatives Demystified (Wiley 2004) Notional sum means there is no actual principal.
  25. ^ "How Leeson broke the bank", BBC Economy
  26. ^ Sergey Chernenko; Michael Faulkender (December 2011). "The Two Sides of Derivatives Usage: Hedging and Speculating with Interest Rate Swaps". The Journal of Financial and Quantitative Analysis. 46 (6): 1727–1754. CiteSeerX 10.1.1.422.7302. doi:10.1017/S0022109011000391. S2CID 13928534.
  27. ^ Knowledge@Wharton (2012). "The Changing Use of Derivatives: More Hedging, Less Speculation"
  28. ^ Guay, Wayne R.; Kothari, S.P. (2001). "How Much do Firms Hedge with Derivatives?". SSRN 253036.
  29. ^ a b Knowledge@Wharton (2006). "The Role of Derivatives in Corporate Finances: Are Firms Betting the Ranch?"
  30. ^ a b c d Ryan Stever; Christian Upper; Goetz von Peter (December 2007). BIS Quarterly Review (PDF) (Report). Bank for International Settlements.
  31. ^ BIS survey: The Bank for International Settlements (BIS) semi-annual OTC derivatives market report, for end of June 2008, showed US$683.7 trillion total notional amounts outstanding of OTC derivatives with a gross market value of US$20 trillion. See also Prior Period Regular OTC Derivatives Market Statistics.
  32. ^ Futures and Options Week: According to figures published in F&O Week October 10, 2005. See also FOW Website.
  33. ^ Morris, Jason. "Are ETFs Considered Derivatives?". Investopedia. Retrieved March 23, 2020.
  34. ^ "Financial Markets: A Beginner's Module". Archived from the original on August 30, 2011. Retrieved October 12, 2011.
  35. ^ Vink, Dennis. "ABS, MBS and CDO compared: An empirical analysis" (PDF). August 2007. Munich Personal RePEc Archive. Retrieved July 13, 2013.
  36. ^ Vink, Dennis. "ABS, MBS and CDO compared: An empirical analysis" (PDF). August 2007. Munich Personal RePEc Archive. Retrieved July 13, 2013.; see also "What are Asset-Backed Securities?". SIFMA. Archived from the original on June 29, 2018. Retrieved July 13, 2013. Asset-backed securities, called ABS, are bonds or notes backed by financial assets. Typically these assets consist of receivables other than mortgage loans, such as credit card receivables, auto loans, manufactured-housing contracts and home-equity loans.)
  37. ^ Lemke, Lins and Picard, Mortgage-Backed Securities, §5:15 (Thomson West, 2014).
  38. ^ Koehler, Christian (May 31, 2011). "The Relationship between the Complexity of Financial Derivatives and Systemic Risk". Working Paper: 17. SSRN 2511541.
  39. ^ a b Lemke, Lins and Smith, Regulation of Investment Companies (Matthew Bender, 2014 ed.).
  40. ^ Bethany McLean and Joe Nocera, All the Devils Are Here, the Hidden History of the Financial Crisis, Portfolio, Penguin, 2010, p.120
  41. ^ "Final Report of the National Commission on the Causes of the Financial and Economic Crisis in the United States", a.k.a. "The Financial Crisis Inquiry Report", p.127
  42. ^ The Financial Crisis Inquiry Report, 2011, p.130
  43. ^ The Financial Crisis Inquiry Report, 2011, p.133
  44. ^ Lisa Pollack (January 5, 2012). "Credit event auctions: Why do they exist?". FT Alphaville.
  45. ^ "Chart; ISDA Market Survey; Notional amounts outstanding at year-end, all surveyed contracts, 1987–present" (PDF). International Swaps and Derivatives Association (ISDA). Archived from the original (PDF) on March 7, 2012. Retrieved April 8, 2010.
  46. ^ "ISDA 2010 Mid-Year Market Survey" Archived September 13, 2011, at the Wayback Machine. Latest available a/o March 1, 2012.
  47. ^ "ISDA: CDS Marketplace". Isdacdsmarketplace.com. December 31, 2010. Archived from the original on January 19, 2012. Retrieved March 12, 2012.
  48. ^ Kiff, John; Jennifer Elliott; Elias Kazarian; Jodi Scarlata; Carolyne Spackman (November 2009). "Credit Derivatives: Systemic Risks and Policy Options" (PDF). IMF Working Papers. 09 (WP/09/254): 1. doi:10.5089/9781451874006.001. S2CID 167560306. Retrieved April 25, 2010.
  49. ^ a b Christian Weistroffer; Deutsche Bank Research (December 21, 2009). "Credit default swaps: Heading towards a more stable system" (PDF). Deutsche Bank Research: Current Issues. Archived from the original (PDF) on February 2, 2010. Retrieved April 15, 2010.
  50. ^ Sirri, Erik. "Testimony Concerning Credit Default Swaps Before the House Committee on Agriculture October 15, 2008". Retrieved April 2, 2010.
  51. ^ Frank Partnoy; David A. Skeel, Jr. (2007). "The Promise And Perils of Credit Derivatives". University of Cincinnati Law Review. 75: 1019–1051. SSRN 929747.
  52. ^ "Media Statement: DTCC Policy for Releasing CDS Data to Global Regulators". Depository Trust & Clearing Corporation. March 23, 2010. Archived from the original on April 29, 2010. Retrieved April 22, 2010.
  53. ^ Mengle, David (2007). "Credit Derivatives: An Overview" (PDF). Economic Review (FRB Atlanta). 92 (4). Archived from the original (PDF) on December 14, 2010. Retrieved April 2, 2010.
  54. ^ "Understanding Derivatives: Markets and Infrastructure", Federal Reserve Bank of Chicago
  55. ^ Forward Contract on Wikinvest[permanent dead link]
  56. ^ Lemke, Lins and Picard, Mortgage-Backed Securities, Chapters 4 and 5 (Thomson West, 2013 ed.).
  57. ^ Josh Clark, "How can mortgage-backed securities bring down the U.S. economy?", How Stuff Works
  58. ^ Benhamou, Eric. "Options pre-Black Scholes" (PDF). Archived from the original (PDF) on October 10, 2015. Retrieved December 26, 2014. {{cite journal}}: Cite journal requires |journal= (help)
  59. ^ Black, Fischer; Scholes, Myron (1973). "The Pricing of Options and Corporate Liabilities". Journal of Political Economy. 81 (3): 637–654. doi:10.1086/260062. JSTOR 1831029. S2CID 154552078.
  60. ^ Brealey, Richard A.; Myers, Stewart (2003), Principles of Corporate Finance (7th ed.), McGraw-Hill, Chapter 20
  61. ^ Ross; Westerfield; Jordan (2010). Fundamentals of Corporate Finance (9th ed.). McGraw Hill. p. 746.
  62. ^ "Currency Derivatives: A Beginner's Module". Archived from the original on August 30, 2011. Retrieved October 12, 2011.
  63. ^ "Bis.org". Bis.org. May 7, 2010. Retrieved August 29, 2010.
  64. ^ "Launch of the WIDER study on The World Distribution of Household Wealth: 5 December 2006". Retrieved June 9, 2009.
  65. ^ Boumlouka, Makrem (October 30, 2009). "Alternatives in OTC Pricing". Hedge Funds Review.
  66. ^ Raghuram G. Rajan (September 2006). "Has Financial Development Made the World Riskier?". European Financial Management. 12 (4): 499–533. doi:10.1111/j.1468-036X.2006.00330.x. S2CID 56263069. SSRN 923683.
  67. ^ Kelleher, James B. (September 18, 2008). ""Buffett's Time Bomb Goes Off on Wall Street" by James B. Kelleher of Reuters". Reuters.com. Retrieved August 29, 2010.
  68. ^ Andrews, Edmund L.; de la Merced, Michael J.; Walsh, Mary Williams (September 16, 2008). "Fed's $85 billion Loan Rescues Insurer". The New York Times.
  69. ^ Edwards, Franklin (1995). "Derivatives Can Be Hazardous To Your Health: The Case of Metallgesellschaft" (PDF). Derivatives Quarterly (Spring 1995): 8–17.
  70. ^ Whaley, Robert (2006). Derivatives: markets, valuation, and risk management. John Wiley and Sons. p. 506. ISBN 978-0-471-78632-0.
  71. ^ "UBS Loss Shows Banks Fail to Learn From Kerviel, Leeson". Businessweek. September 15, 2011. Archived from the original on October 30, 2012. Retrieved March 5, 2013.
  72. ^ Wu, Weiou; G. McMillan, David (July 8, 2014). "The dependence structure in credit risk between money and derivatives markets: A time-varying conditional copula approach". Managerial Finance. 40 (8): 758–769. doi:10.1108/MF-07-2013-0184. ISSN 0307-4358.
  73. ^ Story, Louise, "A Secretive Banking Elite Rules Trading in Derivatives", The New York Times, December 11, 2010 (December 12, 2010, p. A1 NY ed.). Retrieved December 12, 2010.
  74. ^ Zubrod, Luke (2011). The Atlantic. "Will the 'Cure' for Systemic Risk Kill the Economy?" https://www.theatlantic.com/business/archive/2011/06/will-the-cure-for-systemic-risk-kill-the-economy/240600/
  75. ^ Financial Stability Board (2012). "OTC Derivatives Market Reforms Third Progress Report on Implementation" June 15, 2012 http://www.financialstabilityboard.org/publications/r_120615.pdf
  76. ^ a b Proskauer Rose LLP (February 6, 2012). "SEC and CFTC oversight of derivatives: a status report". Lexology. Retrieved March 5, 2013.
  77. ^ Younglai, Rachelle. "Interview – Not all SEC, CFTC rules must be harmonized". Reuters. Archived from the original on March 6, 2016. Retrieved March 5, 2013.
  78. ^ "First take: Ten key points from the SEC's swaps reporting and disclosure rules" (PDF). PwC Financial Services Regulatory Practice, February 2015.
  79. ^ a b c d   This article incorporates text from this source, which is in the public domain: "Joint Press Statement of Leaders on Operating Principles and Areas of Exploration in the Regulation of the Cross-Border OTC Derivatives Market; 2012-251". Sec.gov. December 4, 2012. Retrieved March 11, 2016.
  80. ^ "Derivatives: A first take on cross-border comparability" (PDF). December 2013.
  81. ^ a b c d e "DTCC's Global Trade Repository for OTC Derivatives ("GTR")". Dtcc.com. Archived from the original on March 20, 2013. Retrieved March 5, 2013.
  82. ^ "U.S. DTCC says barriers hinder full derivatives picture". Reuters. February 12, 2013. Retrieved March 5, 2013.
  83. ^ Release, Press (August 5, 2010). "Derivatives trades will be tracked by Depository Trust". Futuresmag.com. Archived from the original on June 19, 2013. Retrieved March 5, 2013.

Further reading

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  • Söhnke M. Bartram; Brown, Gregory W.; Conrad, Jennifer C. (August 2011). "The Effects of Derivatives on Firm Risk and Value" (PDF). Journal of Financial and Quantitative Analysis. 46 (4): 967–999. doi:10.1017/s0022109011000275. S2CID 3945906. SSRN 1550942.
  • Söhnke M. Bartram; Kevin Aretz (Winter 2010). "Corporate Hedging and Shareholder Value" (PDF). Journal of Financial Research. 33 (4): 317–371. CiteSeerX 10.1.1.534.728. doi:10.1111/j.1475-6803.2010.01278.x. S2CID 20087872. SSRN 1354149.
  • Söhnke M. Bartram; Gregory W. Brown; Frank R. Fehle (Spring 2009). "International Evidence on Financial Derivatives Usage". Financial Management. 38 (1): 185–206. doi:10.1111/j.1755-053x.2009.01033.x. SSRN 471245.
  • Lins Lemke (2013–2014). Soft Dollars and Other Trading Activities. Thomson West.
  • Institute for Financial Markets (2011). Futures and Options (2nd ed.). Washington, D.C.: Institute for Financial Markets. ISBN 978-0-615-35082-0.
  • John C. Hull (2011). Options, Futures and Other Derivatives (8th ed.). Harlow: Pearson Education. ISBN 978-0-13-260460-4.
  • Michael Durbin (2011). All About Derivatives (2nd ed.). New York: McGraw-Hill. ISBN 978-0-07-174351-8.
  • Mehraj Mattoo (1997). Structured Derivatives: New Tools for Investment Management: A Handbook of Structuring, Pricing & Investor Applications. London: Financial Times. ISBN 978-0-273-61120-2.
  • Andrei N. Soklakov (2013). "Elasticity Theory of Structuring". arXiv:1304.7535 [q-fin.GN].
  • Andrei N. Soklakov (2013). "Deriving Derivatives". SSRN 2262941.
  • Nassim N. Taleb (1996). “Dynamic Hedging: Managing Vanilla and Exotic Options”. Wiley.
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  • Understanding Derivatives: Markets and Infrastructure (Federal Reserve Bank of Chicago)
  • "Derivatives simple guide", BBC News
  • Investment-foundations: Derivatives. Archived October 27, 2020, at the Wayback Machine. CFA Institute.
  • "European Union proposals on derivatives regulation – 2008 onwards" (archived 19 February 2014)
  • " Derivatives Regulatory Roulette", PwC Financial Services Regulatory Practice (December 2013)