Joan Feynman

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Joan Feynman
Joan-feynman-2015.jpg
January 2015
Born(1927-03-31)March 31, 1927[1]
Queens, New York, U.S.[2]
DiedJuly 21, 2020(2020-07-21) (aged 93)[2][3]
Ventura, California, U.S.
NationalityAmerican
Alma materOberlin College (BS)
Syracuse University (MS, PhD)
Known forWork on auroras, solar wind
AwardsNASA Exceptional Achievement Medal
Scientific career
FieldsAstrophysics
InstitutionsNational Center for Atmospheric Research, National Science Foundation, Boston College, Jet Propulsion Laboratory
ThesisInfrared lattice absorption in crystals of diamond structure (1958)
Doctoral advisorMelvin Lax

Joan Feynman (March 31, 1927 – July 21, 2020) was an American astrophysicist. She made contributions to the study of solar wind particles and fields; sun-Earth relations; and magnetospheric physics. In particular, Feynman was known for developing an understanding of the origin of auroras. She was also known for creating a model that predicts the number of high-energy particles likely to hit a spacecraft over its lifetime, and for uncovering a method for predicting sunspot cycles.[4]

Early life[]

Feynman was raised in Far Rockaway section of Queens, New York City, along with her older brother, Richard Feynman.[4] Her parents were Lucille Feynman (née Phillips), a homemaker, and Melville Arthur Feynman, a businessman. Her family originated from Russia and Poland; both of her parents were Ashkenazi Jews.[1][5] Joan was an inquisitive child, and she exhibited an interest in understanding the natural world from an early age. However, her mother and grandmother both dissuaded her from pursuing science, since they believed that women's brains were not physically capable of understanding complex scientific concepts in the way that men's brains could.[4][6][7] Despite this, her brother Richard always encouraged her to be curious about the universe. It was he who originally introduced young Joan to auroras when, one night, he coaxed her out of bed to witness the northern lights flickering above an empty golf course near their home.[6][8][9] Later, Feynman would find comfort in an astronomy book given to her by her brother. She became convinced that she could, in fact, study science, when she came across a graph based on research by noted astronomer Cecilia Payne-Gaposchkin.[4]

Education[]

In 1948 Feynman earned a bachelor's degree from Oberlin College (and also married Richard Irwin Hirshberg).[10] She later attended Syracuse University, where she studied solid state theory in the physics department under Melvin Lax.[11] During her graduate years, Feynman took a year off to live with her husband in Guatemala, where they studied the anthropology of the Maya peoples who lived there.[12] She was a co-author, along with her first husband and Betty J. Meggers, of a 1957 paper on anthropology.[13] Feynman eventually earned her doctorate in physics in 1958.[2][14] Her thesis was on the "absorption of infrared radiation in crystals of diamond-type lattice structure".[7][15] She also completed postdoctoral work at Columbia University's Lamont Geological Observatory.[3]

Career[]

An aurora display over Calgary

Joan Feynman spent the bulk of her career studying the interactions between the solar wind and the Earth's magnetosphere. While working at the NASA Ames Research Center in 1971, Feynman discovered that the periodic spouting of solar material known as a solar coronal mass ejection (CME) could be identified by the presence of helium in the solar wind.[4] This was an important find because, although CME's were known at the time, they had until then been difficult to detect.

Joan Feynman

After her time at NASA Ames, Feynman moved on to a number of different research posts. These included positions with the High Altitude Observatory; the National Center for Atmospheric Research in Boulder, Colorado; the National Science Foundation in Washington, DC; and Boston College in Massachusetts.[11] Finally in 1985, Feynman accepted a position at the Jet Propulsion Laboratory in Pasadena, California,[16] where she remained until her retirement.

As part of her research, Feynman made a critical discovery about the nature and cause of auroras. Using data collected by a NASA spacecraft known as Explorer 33, she demonstrated that the occurrence of auroras is a product of the interaction between the Earth's magnetosphere and the magnetic field of the solar wind.[4][9][17]

Feynman would also help develop a new model for estimating the environmental hazards of the local space environment. This work was taken on due to the fact that high-velocity coronal mass ejections are known to cause geomagnetic storms, which can have dangerous effects on both functioning spacecraft and on any humans that may be in space at the time.[18] Such fast-moving coronal mass ejections cause shock waves in the solar wind, speeding up solar particles and instigating geomagnetic storms as the particles arrive at the outer edge of Earth's magnetosphere. Often, the commencement of such storms is coupled with a high influx of protons, which can wreak havoc on communications systems and space flight activities. Feynman's model ultimately helped engineers determine the flux of high-energy particles that would affect a spacecraft over its functional lifetime. Her work in this area led to important new developments in the design of future spacecraft.[4][18]

Later in her career, Feynman studied the science behind climate change. She was particularly interested in transient solar events and solar cycle variations.[11] Among other things, she studied the influence of the sun on patterns of wintertime climate anomalies known as the Arctic oscillation or North Annular Mode (NAM). Along with her colleague (and husband) Alexander Ruzmaikin, she found that for periods of lower solar activity, the NAM index is systematically lower. Such periods of low solar activity coincide with cooling periods for certain parts of the world; for example, this was seen in Europe during a time known as the Little Ice Age.[12] Feynman and her colleagues also discovered a link between solar variability and climate change in ancient water levels of the Nile River. During periods of high solar activity, conditions around the Nile were found to be drier, and when solar activity was low, conditions were wetter.[19][9]

In 1974, Feynman became the first woman to be elected as an officer of the American Geophysical Union. She also organized an AGU committee charged with advancing the fair treatment of women within the geophysics community.[4] Feynman has been a longstanding member of the International Astronomical Union. She was a member of a number of the IAU's subdivisions, including: Division E Sun and Heliosphere; Division G Stars and Stellar Physics; and Division E Commission 49 Interplanetary Plasma & Heliosphere.[20]

Feynman retired from the Jet Propulsion Laboratory as a senior scientist in 2003. However, she continued to work, publishing as recently as 2009 on the influence of solar activity on the climate of the first millennium.[21][19][22]

During her career, Feynman was an author or co-author of more than 100 scientific publications. She also edited three scientific books.[11]

Awards and honors[]

Feynman was twice elected secretary of the Solar and Interplanetary Physics Section of the American Geophysical Union.[11]

In 2002, Feynman was named as one of the Jet Propulsion Laboratory's elite senior research scientists.[16]

In 2000, she was awarded NASA's distinguished Exceptional Achievement Medal.[23]

Personal life[]

Feynman was married to fellow astrophysicist Alexander Ruzmaikin since 1987.[11] She had one daughter, Susan Hirshberg, and two sons, Charles Hirshberg and Matt Hirshberg, from her first marriage, to Richard Irwin Hirshberg (born 1924).[4][24] In 1948 she married her first husband, whom she met in Oberlin. They separated in 1974 and later divorced.[10] (Richard I. Hirshberg received his Ph.D. in anthropology from Syracuse University in 1958.[25])

Feynman died on July 21, 2020 at age 93.[2][3][21]

References[]

  1. ^ Jump up to: a b "1940 United States Federal Census - Joan Feynman". Retrieved 1 April 2013.
  2. ^ Jump up to: a b c d Dyer, Brandon (November 19, 2020). "Late Alumna Helped Advance Satellite Technology, Understanding of the Sun, Women in Science". SU News. Retrieved 19 November 2020.
  3. ^ Jump up to: a b c Poffenberger, Leah (10 August 2020). "Joan Feynman 1927–2020". American Physical Society. APS News. Retrieved 14 August 2020.
  4. ^ Jump up to: a b c d e f g h i Hirshberg, Charles (2002-04-18). "My Mother, the Scientist". Popular Science. Bonnier Corporation. Archived from the original on 2015-09-28. Retrieved 2013-11-30.
  5. ^ "Feynman biography". Retrieved 31 March 2013.
  6. ^ Jump up to: a b Ottaviani, Jim; Leland Myrick (2011). Feynman (1st ed.). New York: First Second. ISBN 978-1-59643-259-8.
  7. ^ Jump up to: a b Sykes, ed. by Christopher (1995). No ordinary genius : the illustrated Richard Feynman. New York [u.a.]: Norton. ISBN 978-0393313932.CS1 maint: extra text: authors list (link)
  8. ^ "Joan Feynman - The Aurora". Retrieved 31 March 2013.
  9. ^ Jump up to: a b c "Getting to know the Sun. Joan Feynman died on July 22nd". The Economist. 19 September 2020. Retrieved 23 May 2021. The astrophysicist who studied auroras and prevailed against prejudice was 93
  10. ^ Jump up to: a b Seelye, Katharine Q. (September 10, 2020). "Joan Feynman, Who Shined Light on the Aurora Borealis, Dies at 93". NY Times.
  11. ^ Jump up to: a b c d e f Feynman, Joan (September 2007). "Physics Matters at Syracuse University: Volume 2, September 2007; CORRESPONDENCE FROM ALUMNI, Joan Feynman, PhD '58" (PDF). Archived from the original (PDF) on 11 May 2012. Retrieved 30 March 2013.
  12. ^ Jump up to: a b "Joan Feynman, Caltech & KITP: Climate Stability and its Effect on Human History". University of California at Santa Barbara. Retrieved 31 March 2013.
  13. ^ Ford, Anabel; Nigh, Ronald (July 2016). The Maya Forest Garden: Eight Millennia of Sustainable Cultivation of the Tropical Woodlands. Routledge. p. 229. ISBN 978-1-315-41792-9.
  14. ^ Riley, Christopher (2015). "Joan Feynman: From auroras to anthropology". In Charman-Anderson, Suw (ed.). "A Passion For Science: Tales of Discovery and Invention. FindingAda. Retrieved 5 August 2020.
  15. ^ Feynman Hirshberg, Joan (1958). Infrared lattice absorption in crystals of diamond structure (PhD). Syracuse, NY: Syracuse University. OCLC 850002464. Retrieved 19 November 2020.
  16. ^ Jump up to: a b "Space and Astrophysical Plasmas: People: Joan Feynman". Jet Propulsion Laboratory. Archived from the original on 17 July 2012. Retrieved 5 April 2013.
  17. ^ Crooker, N. U.; Feynman, J.; Gosling, J. T. (1977-05-01). "On the high correlation between long-term averages of solar wind speed and geomagnetic activity". NASA.
  18. ^ Jump up to: a b Collins, David; Joan Feynman (2000). "Early Prediction of Geomagnetic Storms (and Other Space Weather Hazards)". Journal of Geophysical Research. hdl:2014/15728.
  19. ^ Jump up to: a b "NASA Finds Sun-Climate Connection in Old Nile Records". NASA Jet Propulsion Laboratory. 2007-03-19. Retrieved 31 March 2013.
  20. ^ "Joan Feynman | IAU". Retrieved 31 March 2013.
  21. ^ Jump up to: a b Katharine Q. “Kit” Seelye (2020-09-10). "Joan Feynman, Who Shined Light on the Aurora Borealis, Dies at 93". The New York Times. Retrieved 2020-09-13.
  22. ^ Ruzmaikin, Alexander; Joan Feynman (2009). "Search for Climate Trends in Satellite Data". Advances in Adaptive Data Analysis. 1 (4): 667–679. doi:10.1142/S1793536909000266.
  23. ^ "My work and career: The NASA Exceptional Scientific Achievement Medal".
  24. ^ "Joan Feynman to be June Bride," Brooklyn Daily Eagle, May 2, 1948.
  25. ^ "Ph.D.s Awarded, Anthropology Department". Syracuse University. 3 March 2009.

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