United States Naval Research Laboratory

Naval Research Laboratory
Emblem of the NRL
Active	1923-Present
Country	United States
Branch	Navy
Type	Research and development
Size	2,474 civilian 120 military (2006)
Part of	Office of Naval Research
Commanders
Commander	Capt Paul C. Stewart
Director of Research	Dr. John A. Montgomery

The United States Naval Research Laboratory (NRL) is the corporate research laboratory for the United States Navy and the United States Marine Corps and conducts a broad program of scientific research and advanced development. NRL has existed since 1923, when it opened at the instigation of Thomas Edison. In a May 1915 editorial piece in the New York Times Magazine, Edison wrote; "The Government should maintain a great research laboratory... In this could be developed...all the technique of military and naval progression without any vast expense."^[1] In 1946, upon the establishment of the Office of Naval Research, NRL was placed under the direction of the Chief of Naval Research. NRL in its current form was created in 1992 after the Navy consolidated existing R&D facilities to form a single corporate laboratory. The NRL's budget was approximately $1.2 billion per year in 2008 ^[2]

Naval Research Laboratory complex on the Potomac River in Washington, D.C.

Mission Statement

NRL's published mission statement includes:^[3]

• Conducting a broadly based multidisciplinary program of scientific research and advanced technological development;
• Maritime applications of new and improved materials, techniques, equipment, systems and ocean, atmospheric, and space sciences and related technologies.

History^[4]

The NRL, the first modern research institution created within the United States Navy, began operations in 1923.

Thomas Edison's Vision: The first step came in May 1915, a time when Americans were deeply worried about the Great European War. Thomas Edison, when asked by a New York Times correspondent to comment on the conflict, argued that the Nation should look to science. "The Government" he proposed in a published interview, "should maintain a great research laboratory... In this could be developed... all the technique of military and naval progression without any vast expense." Secretary of the Navy Josephus Daniels seized the opportunity created by Edison's public comments to enlist Edison's support. He agreed to serve as the head of a new body of civilian experts - the Naval Consulting Board - to advise the Navy on science and technology. The Board's most ambitious plan was the creation of a modern research facility for the Navy. Congress allocated $1.5 million for the institution in 1916, but wartime delays and disagreements within the Naval Consulting Board postponed construction until 1920.

The Laboratory's two original divisions - Radio and Sound - pioneered in the fields of high-frequency radio and underwater sound propagation. They produced communications equipment, direction-finding devices, sonar sets, and perhaps most significant of all, the first practical radar equipment built in the United States. They also performed basic research, participating, for example, in the discovery and early exploration of the ionosphere. Moreover, the NRL was able to work gradually toward its goal of becoming a broadly based research facility. By the beginning of World War II, five new divisions had been added: Physical Optics, Chemistry, Metallurgy, Mechanics and Electricity, and Internal Communications.

World War II Years and Growth: Total employment at the NRL jumped from 396 in 1941 to 4400 in 1946, expenditures from $1.7 million to $13.7 million, the number of buildings from 23 to 67, and the number of projects from 200 to about 900. During World War II, scientific activities necessarily were concentrated almost entirely on applied research. New electronics equipment - radio, radar, sonar - was developed. Countermeasures were devised. New lubricants were produced, as were antifouling paints, luminous identification tapes, and a sea marker to help save survivors of disasters at sea. A thermal diffusion process was conceived and used to supply some of the U-235 isotope needed for one of the first atomic bombs. Also, many new devices that developed from booming wartime industry were type tested and then certified as reliable for the Fleet.

NRL Reorganizes for Peace: Because of the major scientific accomplishments of the war years, the United States emerged into the postwar era determined to consolidate its wartime gains in science and technology and to preserve the working relationship between its armed forces and the scientific community. While the Navy was establishing the Office of Naval Research (ONR) as a liaison with and supporter of basic and applied scientific research, it was also encouraging NRL to broaden its scope and become, in effect, its corporate research laboratory. There was a transfer of NRL to the administrative oversight of ONR and a parallel shift of the Laboratory's research emphasis to one of long-range basic and applied investigation in a broad range of the physical sciences.

However, rapid expansion during the war had left NRL improperly structured to address long-term Navy requirements. One major task - neither easily nor rapidly accomplished - was that of reshaping and coordinating research. This was achieved by transforming a group of largely autonomous scientific divisions into a unified institution with a clear mission and a fully coordinated research program. The first attempt at reorganization vested power in an executive committee composed of all the division superintendents. This committee was impracticably large, so in 1949, a civilian director of research was named and given full authority over the program. Positions for associate directors were added in 1954.

The Breadth of NRL: During the years since World War II, the areas of study at the Laboratory have included basic research concerning the Navy's environments of Earth, sea, sky, and space. Investigations have ranged widely - from monitoring the Sun's behavior, to analyzing marine atmospheric conditions, to measuring parameters of the deep oceans. Detection and communication capabilities have benefited by research that has exploited new portions of the electromagnetic spectrum, extended ranges to outer space and provided a means of transferring information reliably and securely, even through massive jamming. Submarine habitability, lubricants, shipbuilding materials, firefighting, and the study of sound in the sea have remained steadfast concerns, to which have been added recent explorations within the fields of virtual reality, superconductivity, biomolecular science and engineering, and nanotechnology. The Laboratory has pioneered naval research into space - from atmospheric probes with captured V-2 rockets, through the direction of the Vanguard project (America's first satellite program), to inventing and developing the first satellite prototypes of the Global Positioning System (GPS). Today, NRL is the Navy's lead laboratory in space systems research, fire research, tactical electronic warfare, microelectronic devices and artificial intelligence.

The consolidation in 1992 of NRL and the Naval Oceanographic and Atmospheric Research Laboratory, with centers in Bay St. Louis, Mississippi, and Monterrey, California, added critical new strengths to the Laboratory. NRL now is additionally the lead Navy center for research in ocean and atmospheric sciences, with special strengths in physical oceanography, marine geosciences, ocean acoustics, marine meteorology, and remote oceanic and atmospheric sensing. Although not abandoning its interests in blue-water operations and research, the Navy is also focusing on defending American interests in the world's littoral regions. NRL scientists and engineers are working to give the Navy the special knowledge and capabilities it needs to operate in those waters.

Research

NRL's accomplishments range from the development of gamma-ray radiography and radar to the Large Angle and Spectrometric Coronagraph Experiment (LASCO) and Dragon Eye, a robotic airborne sensor system. The laboratory first proposed a nuclear submarine in 1939, and developed over-the-horizon radar in the late 1950s. The details of GRAB 1, deployed by NRL as the nation's first intelligence satellite, were recently declassified. The laboratory is responsible for the identification, friend or foe (IFF) system. In 1985, two scientists at the laboratory, Herbert A. Hauptman and Jerome Karle, won the Nobel Prize for work in molecular structure analysis. The projects developed by the laboratory often become mainstream applications without public awareness of the developer; an example in computer science is onion routing. The Timation system, developed at NRL, provided the basis for the Global Positioning System.^[5]

A few of the laboratory's current specialties include plasma physics, space physics, materials science, and tactical electronic warfare.

Organization

The laboratory is divided into four research directorates, one funding directorate, and one executive directorate. At the end of fiscal year 2006, NRL employed 2643 persons - 35 officers, 76 enlisted, and 2532 civilians. In the research staff, there are 806 employees with doctorate degrees, 320 with master's degrees, and 442 with bachelor's degrees.

Executive Directorate

The Executive Directorate, located in Washington, D.C., serves as the command and control center of the Laboratory and is run by the Commander of the NRL.

In addition to management functions, the Directorate also manages the Institute for Nanoscience, founded in April 2001 as a multidisciplinary research at the intersections of the fields of materials, electronics and biology. Scientific Development Squadron ONE (VXS-1), located at Naval Air Station Patuxent River, Maryland, which provides airborne research facilities to NRL as well as other agencies of the US Government is also run out of the Executive Directorate.

Business Operations Directorate

The Business Operations Directorate, located in Washington, D.C., provides program management for the business programs which support the scientific directorates of NRL. It provides contracting, financial management and supply expertise to the scientific projects.

Systems Directorate

The Systems Directorate, headquartered in Washington, D.C. with locations in Chesapeake Beach, Tilghman Island, and Naval Air Station Patuxent River, is responsible for performing a range of activities from basic research through engineering development to expand the operational capabilities of the US Navy. There are four research divisions: Radar, Information Technology, Optical Sciences, and Tactical Electronic Warfare.

Materials Science and Component Technology Directorate

The Materials Science and Component Technology Directorate, headquartered in Washington, D.C. with additional locations at Naval Air Station Key West and Chesapeake Beach, Maryland, carries out a range of materials research with the aim of better understanding of the materials in order to develop improved and advanced materials for use by the US Navy. There are seven research divisions: Laboratory for the Structure of Matter, Chemistry, Material Science & Technology, Laboratory for Computational Physics and Fluid Dynamics, Plasma Physics, Electronics Science & Technology, and the Center for Biomolecular Science & Engineering. Additionally, the Directorate also operates the National Synchrotron Light Source at the Brookhaven National Laboratory and the test and training platform the ex-USS Shadwell in Alabama.

Ocean and Atmospheric Science and Technology Directorate

The Ocean and Atmospheric Science and Technology Directorate, headquartered in Washington, D.C. with additional locations at Chesapeake Beach, Maryland and Monterey, California, performs research in the fields of acoustics, remote sensing, oceanography, marine geosciences, marine meteorology, and space science.^[6] There are six research divisions: Acoustics, Remote Sensing, Oceanography, Marine Geosciences, Marine Meteorology, and Space Science. Additionally, the Oceanography division operates at NASA's Stennis Space Center in Mississippi as well as the Extreme-Ultraviolet and X-Ray Calibration Facility at Brookhaven National Laboratory in New York.

Naval Center for Space Technology

The mission of the Center for Space Technology, headquartered in Washington, D.C. with additional sites at Pomonkey, Maryland, Blossom Point, Maryland and the Midway Research Center, Virginia, is to preserve and enhance a strong space technology base and provide expert assistance in the development and acquisition of space systems for naval missions.^[7] There are two research divisions: Space Systems Development and Spacecraft Engineering.

See also

• History of radar
  • Robert Morris Page one of the main American radar scientists
• Interactive Scenario Builder
• NRLMSISE-00
• SIMDIS
• Clementine spacecraft
• National research libraries alliance
• Fleet Electronic Warfare Center (FEWC)

References

 This article incorporates public domain material from the United States Government document "http://www.nrl.navy.mil".

External links

Military of the United States portal

United States Navy portal

• U.S. Naval Research Laboratory
• The Little Book of Big Achievements (PDF)
• Pushing the Horizon: 75 years of High Stakes Science and Technology at the Naval Research Laboratory (PDF)

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