|Research type||Unclassified / classified|
|Director||Dr. Ralph Semmel|
|Location||Laurel, Maryland, U.S.|
|Johns Hopkins University|
The Johns Hopkins University Applied Physics Laboratory (Applied Physics Laboratory, or APL) is a not-for-profit university-affiliated research center (UARC) in Howard County, Maryland. It is affiliated with Johns Hopkins University and employs 7,200 people (2020). The lab serves as a technical resource for the Department of Defense, NASA, and other government agencies. APL has developed numerous systems and technologies in the areas of air and missile defense, surface and undersea naval warfare, computer security, and space science and spacecraft construction. While APL provides research and engineering services to the government, it is not a traditional defense contractor, as it is a UARC and a division of Johns Hopkins University. APL is a scientific and engineering research and development division, rather than an academic division, of Johns Hopkins.
Hopkins' Whiting School of Engineering offers part-time graduate programs through its Engineering for Professionals program. Courses are taught at seven locations in the Baltimore-Washington Metropolitan Area, including the APL Education Center.
APL was created in 1942 during World War II under the Office of Scientific Research and Development's Section T as part of the Government's effort to mobilize the nation's science and engineering expertise within its universities. Its founding director was Merle Anthony Tuve, who led Section T throughout the war. Section T was created on August 17, 1940. According to the official history of the Office of Scientific Research and Development, Scientists Against Time, APL was the name of Section T's main laboratory from 1942 onward, not the name of the organization overall. Section T's Applied Physics Laboratory succeeded in developing the variable-time proximity fuze that played a significant role in the Allied victory. In response to the fuze's success, the APL created the MK 57 gun director in 1944. Pleased with the APL's work, the Navy then tasked it with the mission to find a way to negate guided missile threats. From there on, the APL became very involved in wartime research. Expected to disband at the end of the war, APL instead became heavily involved in the development of guided missile technology for the Navy. At governmental request, the University continued to maintain the Laboratory as a public service.
APL was originally located in Silver Spring, Maryland in a used-car garage at the former Wolf Motor Company building at 8621 Georgia Avenue. APL moved to Laurel beginning in 1954, with the construction of a two million dollar building and a US$700,000 wing expansion in 1956. The final staff transitioned to the new facility in 1975. Before moving to Laurel, APL also maintained the "Forest Grove Station", north of Silver Spring on Georgia Avenue near today's Forest Glen Metro, which included a hypersonic wind tunnel. The Forest Grove Station was vacated and torn down in 1963 and flight simulations were moved to Laurel.
The Laboratory's name comes from its origins in World War II, but APL's major strengths are systems engineering and technology application. More than three-quarters of the staff are technical professionals, and 25% have computer science and math degrees. APL conducts programs in fundamental and applied research; exploratory and advanced development; test and evaluation; and systems engineering and integration.
During the 1950s and the 1960s APL worked with the US Navy in the Operation Bumblebee Program on the Talos missile, Tartar missile, Terrier, and RIM-2 Terrier Surface to Air Missile systems. The follow-on RIM-50 Typhon Missile Project, based on improved Talos and Tartar Missiles, while successful, was cancelled in 1963 due to high costs and was eventually developed into the now well known Aegis Combat System based on an improved Terrier.
In 1990, APL became involved with Operation Desert Storm and was involved in the [clarification needed] among other efforts. In the same decade (1992), APL, along with Johns Hopkins University, developed an algorithm that allowed for automatic mammogram analysis.
In 1965, the US Army contracted with APL to develop and implement a test and evaluation program for the Pershing missile systems. APL developed the Pershing Operational Test Program (OTP), provided technical support to the Pershing Operational Test Unit (POTU), identified problem areas and improved the performance and survivability of the Pershing systems.
APL is also home to a Johns Hopkins graduate program in engineering and applied sciences, called Engineering for Professionals. Courses are taught at seven locations in the Baltimore-Washington Metropolitan Area, including the APL Education Center.
The center is home to several popular internships for high school and college students, including the ASPIRE High School Intern program for high schoolers, as well as the College Summer Intern program, ATLAS Intern Program, and RISE@APL Intern Program for college students across the country.
As of APL's 70th anniversary in 2012, there were over 600 projects in progress, spanning from those in APL's more traditional areas of work, including air defense, undersea warfare precision engagement and strategic systems to newer types of projects, including those in homeland security and cyber operations. Due to the nature of the APL's work, many of its projects' details are kept confidential.
The U.S. Navy continues to be APL's primary long-term sponsor. The Laboratory performs work for the Missile Defense Agency, the Department of Homeland Security, intelligence agencies, the Defense Advanced Research Projects Agency (DARPA), and others. The Laboratory supports NASA through space science, spacecraft design and fabrication, and mission operations. APL has made significant contributions in the areas of air defense, strike and power projection, submarine security, antisubmarine warfare, strategic systems evaluation, command and control, distributed information and display systems, sensors, information processing, and space systems.
APL has built and operated many spacecraft, including the TRANSIT navigation system, NEAR, Geosat, ACE, TIMED, CONTOUR, MESSENGER, Van Allen Probes, the New Horizons mission to Pluto, the Parker Solar Probe mission to the outer corona of the Sun, and STEREO. In 2019, the APL proposed Dragonfly mission was selected as the fourth NASA New Frontiers mission. Dragonfly is a relocatable lander in an X8 octocopter configuration that will explore Saturn's moon Titan by flying between landing sites to move around the moon's surface. In November 2021, APL will launch the Double Asteroid Redirection Test (or DART) mission to strike the smaller body of a binary asteroid system; this will be the first NASA planetary defense mission.
In 2014, APL made history with the successful use of the Modular Prosthetic Limb — a fully artificial articulated arm and hand — by a bilateral shoulder-level amputee. APL used pattern recognition algorithms to track which muscles were contracting and enable the prosthetics to move in conjunction with the amputee's body.
Similar technology was used in 2016 for a demonstration in which a paralyzed man was able to "fist-bump" Barack Obama using signals sent from an implanted brain chip. The limb returned sensory feedback from the arm to the wearer's brain.
The APL researches and produces unmanned aerial vehicles for the US military. One of its most recent projects is an unmanned aerial swarm that can be controlled by a single operator on the ground.
Boeing and the Johns Hopkins University Applied Physics Laboratory (JHU/APL) have demonstrated that an operator on the ground, using only a laptop and a military radio, can command an unmanned aerial vehicle (UAV) "swarm". Despite limited flight training, the operator was able to connect with autonomous UAVs, task them and obtain information without using a ground control station. [...] The demonstrations are conducted under a collaborative agreement between Boeing and JHU/APL, a University Affiliated Research Center and a division of Johns Hopkins University that has been addressing critical national challenges through the innovative application of science and technology for nearly 70 years. It maintains a staff of about 5,000 on its Laurel, Maryland, campus.