Activities[edit]

For administrative purposes, JASON's activities are run through the MITRE Corporation, a not-for-profit corporation in McLean, Virginia, which operates Federally Funded Research and Development Centers (FFRDCs) for the federal government.[5] The Department of Defense ended its contract with MITRE in April 2019, effectively cutting ties with JASON.[6] However, due to the efforts of the Department of Energy as well as others within the government, to include an act of Congress, the contract was reinstated and is now again with the Department of Defense.[7][8]


JASON typically performs most of its work during an annual summer study. Its sponsors include the Department of Defense, the Department of Energy, and the U.S. Intelligence Community. Most of the resulting JASON reports are classified.


The name "JASON" is sometimes explained as an acronym, standing either for "July August September October November", the months in which the group would typically meet; or, tongue in cheek, for "Junior Achiever, Somewhat Older Now". However, neither explanation is correct; in fact, the name is not an acronym at all. Mildred Goldberger, wife of group member Murph Goldberger, disliked the name given by the Pentagon, Project Sunrise, and suggested the group be named Jason, inspired by the mythological character Jason.[9]JASON studies have included a now-mothballed system for communicating with submarines using extremely long radio waves (Project Seafarer, Project Sanguine), an astronomical technique for overcoming the atmosphere's distortion (adaptive optics), the many problems of missile defense, technologies for verifying compliance with treaties banning nuclear tests, a 1979 report describing CO2-driven global warming, and the McNamara Line's electronic barrier, a system of computer-linked sensors developed during the Vietnam War which became the precursor to the modern electronic battlefield.


Among the more recent activities was a non-consensus-commensurate (in other words, providing a view alternative to the prevailing one in the federal executive department which commissioned the report), and now declassified, report to the State Department dismissing sounds associated with the Havana syndrome cases as caused by crickets as opposed to microwave weapons.[10] This was followed by a 2021 report, in which JASON again found no compelling evidence that the anomalous health incidents (AHI) were caused by a deliberate attack using a radio-frequency or any other directed energy weapon.[11]

(1960–1966)[9]

Marvin Leonard Goldberger

(1966–1973)

Harold Lewis

Kenneth M. Watson

Edward A. Frieman

[19]

Richard Garwin

William Nierenberg

(1987–1990) [20]

William Happer

(1990–1995) [21]

Curtis Callan

(1995–1998) [22]

William H. Press

[23]

Steven Koonin

(2005–2011)[24]

Roy Schwitters

(2011–2014)[25]

Gerald Joyce

(2014–2019)

Russell J. Hemley

(2019–present)

Ellen D. Williams

In chronological order:

Early history[edit]

In 1958, a military-issues physics summer study program named Project 137 was launched by physicists John Archibald Wheeler, Eugene Wigner, and Oskar Morgenstern. Participants included Murph Goldberger, Kenneth M. Watson, Nick Christofilos, and Keith Brueckner.


Out of that program came the idea of a permanent institution for advanced scientific research, a proposed National Defense Institute, on behalf of the Department of Defense. Wheeler was offered such a position by DARPA's Herb York but turned it down, having put in the effort to establish Project 137. Murph Goldberger also turned down the request.


However, in December 1959 Marvin Stern, Charles H. Townes, Keith Brueckner, Kenneth M. Watson, and Marvin Leonard Goldberger met in Los Alamos where several of them had been working on nuclear-rocket research and launched JASON as an ongoing summer study program, with financial and administrative support supplied by the Institute for Defense Analyses. In the early 1960s, JASON had about 20 members. By the end of the decade it had grown to over 40 members, with close ties to the President's Science Advisory Committee. In the early 1970s the backing institution for JASON was changed from IDA to SRI.[9]

Recent history[edit]

In 2002, DARPA decided to cut its ties with JASON. DARPA had not only been one of JASON's primary sponsors, it was also the channel through which JASON received funding from other sponsors. DARPA's decision came after JASON's refusal to allow DARPA to select three new JASON members. Since JASON's inception, new members have always been selected by its existing members. After much negotiation and letter-writing—including a letter by Congressman Rush Holt of New Jersey[34]—funding was subsequently secured from an office higher in the defense hierarchy, the office of the Director, Defense Research & Engineering, name changed to Assistant Secretary of Defense (Research & Engineering) (ASD (R&E)) in 2011.[35]


In 2009, JASON issued its classified recommendations on the future of the United States nuclear arsenal, finding that a new generation of nuclear weapons was unnecessary.[36][37] In 2010, JASON issued recommendations for the Department of Defense to support cyber-security research.[38] In 2011, the panel published a public analysis of and recommendations for international greenhouse gas monitoring by the United States government.[39] In 2014, the panel published results of its 2013 summer-study focus on health information exchange.[40]


In April 2019, JASON lost its contract with the Department of Defense. On 28 March, Representative Jim Cooper (D–TN), who chairs the strategic forces subcommittee of the House Armed Services Committee, revealed that the MITRE Corporation, a nonprofit based in McLean, Virginia, that manages the JASON contract, received a letter from the Department of Defense ordering it to close up shop by 30 April.[41][42] However, on 25 April 2019 the National Nuclear Security Administration in the Department of Energy offered the group an 8-month contract that would continue to employ JASON.[43][44]

(August, 2020, JSR-20-NS1)

Managing the Risk From COVID-19 During a Return to On-Site University Research

(December 2019; JSR 19–21)

Fundamental Research Security

(December 2017, JSR-17-Task-002)

Artificial Intelligence in Health and Healthcare

(November 2014, JSR-14-TASK-007)

Data for Individual Health

(April 2014, JSR-13-700)

A Robust Health Data Infrastructure

(November 2012, JSR-12-104)

Compressive Sensing for DoD Sensor Systems

(November 2011, JSR-11-320)

Impacts of Severe Space Weather on the Electric Grid

. (November 2010, JSR-10-100)

The $100 Genome: Implications for the DoD

(November 2010, JSR-10-102)

Science of Cyber-Security

(October 2008; JSR-08-506)

High Frequency Gravitational Waves

Human Performance, (March 2008; JSR-07-625)

Microbial Forensics, (May 2008; No. JSR-08-512)

Wind Farms and Radar, (January 2008; JSR-08-125)

Navy Ship Underwater Shock Prediction and Testing Capability Study, (October 2007; JSR-07-200)

Reliable Replacement Warhead Executive Summary, (September 2007; JSR-07-336E)

Pit Lifetime, (January 2007; JSR-06-335)

DAHRT, (October 2006; JSR-06-330)

Engineering Microorganisms for Energy Production, (June 2006; JSR-05-300)

Reducing DoD Fossil-Fuel Dependence, (September 2006; JSR-06-135)

Ignition (June 2005; JSR-05-340)

NIF

Tactical Infrasound (May 2005; JSR-03-520)

Quantifications of Margins and Uncertainties, (March 2005; JSR-04-330)

High Performance Biocomputation (March 2005; JSR-04-300)

Sensors to Support the Soldier (Feb. 2005; JSR-04-210)

Horizontal Integration: Broader Access Models for Realizing Information Dominance (December 2004; JSR-04-312)

Active Sonar Waveform, (June 2004; JSR-03-200)

The Computational Challenges of Medical Imaging, (February 2004; JSR-03-300)

Requirements for , (October 2003; JSR-03-330)

ASCI

Portable Energy for the Dismounted Soldier, (June 2003; JSR-02-135)

Turbulent Boundary Layer Drag Reduction, (May 2003; JSR-01-135)

High Power Lasers, (April 2003; JSR-02-224)

Biodetection Architectures, (February 2003; JSR-02-330)

Opportunities at the Intersection of Nanoscience, Biology and Computation, (November 2002; JSR-02-300)

Atmospheric Radiation Measurement (ARM) Program, (April 2002; JSR-01-315)

Non-GPS Methods of Geolocation, (January 2002; JSR-00-105)

Radiological Weapons, (2002; JSR-02-340)

Biofutures, (June 2001; JSR-00-130)

Spintronics, (February 2001; JSR-99-115)

(October 2000, JSR-97-600)

Imaging Infrared Detectors II

Advantage of Base-Line Redundancy in Sparse Apertures, (September 2000; JSR-2000-551)

Space Infrastructure for 2020, (September 2000; JSR-99-125)

Imaging Infrared Detectors II, (June 2000; JSR-97-500)

Molecular Electronics: Interfacing the Nano- and Micro-Worlds, (May 2000; JSR-99-120)

Power Sources for Ultra Low Power Electronics, (June 2000; JSR-98-130)

100 LBS TO Low Earth Orbit (LEO): Small-Payload Launch Options, (January 2000; JSR-98-140)

Data Mining and the Human Genome (January 2000; JSR-99-310)

Primary Performance Margins (December 1999; JSR-99-305) (unclassified introduction)

System-Level Flight Tests, (December 1999; JSR-98-310)

Remanufacture (of Nuclear Weapons), (October 1999; JSR-99-300)

Army Battlefield Communications (September 1999; JSR-96-605)

Characterization of Underground Facilities (April 1999; JSR-97-155)

Non-destructive Evaluation and Self-Monitoring Materials (April 1999; JSR-98-145)

Electro Thermal Chemical Gun Technology Study (March 1999; JSR-98-600)

Small Unit Operations (June 1998; JSR-97-142)

Signatures of Aging Revisited (March 1998; JSR-98-320)

Signatures of Aging [of nuclear weapons] (January 1998; JSR-97-320)

Counterproliferation (January 1998; JSR-94-140)

High Energy Density Explosives (October 1997; JSR-97-110)

(October 1997; JSR-97-315)

Human Genome Project

Small Scale Propulsion: Fly on the Wall, Cockroach in the Corner, Rat in the Basement, Bird in the Sky (September 1997; JSR-97-135)

Subcritical Experiments (March 1997; JSR-97-300)

New Technological Approaches to Humanitarian Demining, November 1996; JSR-96-115)

(July 1996; JSR-95-115)

Quantum Computing

Inertial Confinement Fusion (ICF) Review (March 1996; JSR-96-300)

DNA Computing (October 1995; JSR-95-116)

JASON Nuclear Testing Study: Summary and Conclusions, August 1995; JSR-95-320)

Accelerator production of tritium - 1995 review (June 1995; JSR-95-310)

Accelerator based conversion of plutonium (March 1995; JSR-94-310)

Microsurveillance of the Urban Battlefield (February 1995; JSR-95-125)

JASON Nuclear Testing Study: Summary and Conclusions (1995; JSR-95-320)

Jason Final Report, January 1995; JSR-94-105)

LIDAR (September 1994; JSR-93-310)

Science based stockpile stewardship (November 1994; JSR-94-345)

Counter proliferation /draft/ (August 1994; JSR-94-140)

MTPE /draft/ (August 1994; JSR-94-750)

/draft/ (July 1994; JSR-94-300)

ARM

CO2 greenhouse mitigation (May 1994; JSR-93-340)

Underwater explosions ONR/DNA/NAVSEA /draft/ (January 1994; JSR-94-220)

Clouds and radiation – a premier [sic] (January 1993; JSR-90-307)

Verification of dismantlement of nuclear warheads and controls on nuclear materials (January 1993; JSR-92-331)

Small satellites and RPVs (January 1993; JSR-91-197)

SCHAMMP (Dec 1992; JSR-91-310)

JASON Global Grid Study (July 1992; JSR-92-100)

ARM review 1991 /draft/ (September 30, 1991; JSR-91-300)

Small satellite and RPAs in global change research /draft/ (August 1991; JSR-91-330-12)

Small Satellites (August 3, 1991; JSR-91-330-10)

ARM /draft/ (July 1991; JSR-91-300)

Verification Technology: Unclassified Version (October 1990; JSR-89-100A)

High gain arrays /draft/ (July 1990; JSR-90-210)

Detecting the greenhouse signal (May 1990; JSR-89-330)

JASON Review of Brilliant Pebbles, Vol. I, Executive Summary (September 1989; JSR-89-900)

Neutrino Detection Primer (March 1988; JSR-84-105)

Airships (1988; JSR-88-230)

Occultation study summary (February 1987; JSR-86-108)

JASON study on OTHB radars (1987; JSR-87-801)

Development stability of strategic defenses (October 1986; JSR-85-926)

Submarine detection: Acoustic contrast versus Acoustic glow (July 1985; JSR-85-108)

Seismic discrimination (April 1985 ; JSR-84-117)

SEASAT Report (January 1985; JSR-83-203)

Multiple scattering effects in radar observations of wakes (August 1984; JSR-84-203B)

III & IV (August 1984; JSR-84-203)

SEASAT

Report (March 1984; JSR-83-203)

SEASAT

The (1979) JSR-78-07 and (1980) JSR-79-04; more fully published as MacDonald et al., (1982)[51]

Long Term Impact of Atmospheric Carbon Dioxide on Climate: preliminary report

Report (November 1978; JSR-78-09)

Sonic Boom

Laser Propulsion Study (Summer 1977; JSR-77-12)

Low frequency sound propagation in a fluctuating infinite ocean II (June 1975; JSR-74-6)

Low frequency sound propagation in a fluctuating infinite ocean (April 1974; JSR-73-10)

The effect of surface currents on the equilibrium surface wave spectral energy density (October 1973; JSR-73-2)

Collected working papers on internal—surface wave interactions and related problems (August 2, 1972; JASON-72-Working Paper no.33)

(March 1972; Paper P-853)

Internal Wave-Surface Wave Interactions Revisited

(September 1971; Paper P-816)

Wake Collapse in a Stratified Fluid: Linear Treatment

Report of the 1971 JASON Laser Summer Study. Volume I. Recommendations and Conclusions (1971)

Report of the 1971 JASON Laser Summer Study. Volume II. Supporting Appendices A-M (1971)

(April 1969; S-334)

Generation and Airborne Detection of Internal Waves from an Object Moving through a Stratified Ocean, Vol II

(June 1968, Paper P-432)

Oil Pollution in the Sea: Problems for Future Work

(March 1967; S-266)

Tactical Nuclear Weapons in Southeast Asia

(August 1966; S-255)

Air-Supported Anti-Infiltration Barrier

(August 1966; Paper P-322)

Manned Barrier Systems: A Preliminary Study

(August 1966; Paper P-315)

Air-Sown Mines for the Massive Barrier

(August 1961)

Late Stage of Rayleigh-Taylor Instability

About half of JASON's work is classified, ranging from recommendations on the United States nuclear arsenal and missile defense, to electronic surveillance and cyber-security.


Much of JASON's public work has involved energy and the environment, including Gordon MacDonald's project to model climate change that soon convinced him that fossil-fuel burning would lead to dangerous global warming that would outstrip any industrial cooling effects. For decades, MacDonald was a prominent scientific advocate for action on climate change.[45][46] Current JASON energy research has included reports on advanced biofuel production and how to reduce the Department of Defense's carbon footprint for strategic and environmental reasons. However, several other members of JASON, including past chairs Nierenberg, Happer, and Koonin, have cast doubt on climate science and policies that would limit the use of fossil fuels.[47][48][49]


JASON studies include:[50]

Ann Finkbeiner, The Jasons: The Secret History of Science's Postwar Elite, Viking/Penguin, April 6, 2006,  0-670-03489-4

ISBN

at Federation of American Scientists

JASON Defense Advisory Panel Reports

article by Nautilus Institute, circa 2002

What is JASON?

1972 polemical pamphlet on the Jasons by physicist Charles Schwartz

"Science Against the People"

July 16, 2010 article at Nuclear Threat Initiative discusses JASON role

Lab Chiefs Find U.S. Nuclear-Weapon Update Approach Adequate, But Not Ideal