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Leo Esaki

From Wikipedia, the free encyclopedia
Japanese solid-state physicist (born 1925)

Leo Esaki
江崎 玲於奈
Esaki in 2020
Born (1925-03-12)March 12, 1925 (age 100)
EducationThird Higher School
Alma materTokyo Imperial University (BS,PhD)
Employers
Known for
Awards

Leo Esaki[a] (born March 12, 1925) is a Japanesesolid-state physicist who shared the 1973Nobel Prize in Physics withIvar Giaever andBrian Josephson for his work ontunneling insemiconductors,[2] which led to his invention of thetunnel diode that exploits this phenomenon. His research was done when he was withSony. He has also contributed in being a pioneer of semiconductorsuperlattices.

Education

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Leo Esaki was born on March 12, 1925, inOsaka, Japan,[3] and grew up inKyoto, where he attended theThird Higher School. He then went on to study physics at Tokyo Imperial University (now theUniversity of Tokyo), graduating with aB.S. in 1947.[4]

Career and research

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Sony

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Esaki works atSony, 1959.

In 1956, Esaki became chief physicist at Tokyo Tsushin Kogyo (nowSony).[5]

In 1957, Esaki recognized that when thep–n junction width ofgermanium is thinned, thecurrent–voltage characteristic is dominated by the influence of thetunnel effect. As a result, he discovered that as the voltage is increased, the current decreases inversely, indicatingnegative resistance.[6]

This discovery was the first demonstration of solid tunneling effects in physics—and it was the birth of the first quantum electronic device, thetunnel diode. He received aPh.D. from Tokyo Imperial University due to this breakthrough invention in 1959.[4]

IBM

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In 1960, Esaki moved to the United States and joinedIBM'sThomas J. Watson Research Center,[7] where he was appointed anIBM Fellow in 1967.

In 1969, Esaki predicted that semiconductorsuperlattices will be formed to induce a differential negative-resistance effect via an artificially one-dimensional periodic structural changes in semiconductor crystals.[8] His unique "molecular-beam epitaxy" thin-film crystal growth method can be regulated quite precisely in ultrahigh vacuum. A 1987 comment by Esaki regarding the original paper notes:

"The original version of the paper was rejected for publication byPhysical Review on the referee's unimaginative assertion that it was 'too speculative' and involved 'no new physics.' However, this proposal was quickly accepted by the Army Research Office..."[9]

In 1972, Esaki realized his concept of superlattices in III-V group semiconductors. Later, this concept influenced many fields like metals and magnetic materials.

Later life

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In 1992, Esaki returned to Japan, where he subsequently served as President of theUniversity of Tsukuba[4] and of theShibaura Institute of Technology. Since 2006, he is President ofYokohama College of Pharmacy.

Since the death ofYoichiro Nambu in 2015, Esaki is currently the oldestJapanese Nobel laureate.

Family

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Esaki's daughter, Anna Esaki, is married toCraig S. Smith, formerShanghai bureau chief ofThe New York Times andChina bureau chief ofThe Wall Street Journal.[10]

Esaki's "five don'ts" rules

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At the 1994Lindau Nobel Laureate Meetings, Esaki suggested a list of "five don'ts" which anyone in realizing his creative potential should follow. Two months later, the chairman of the Nobel Committee for PhysicsCarl Nordling incorporated the rules in his own speech.[11]

  1. Don't allow yourself to be trapped by your past experiences.
  2. Don't allow yourself to become overly attached to any one authority in your field – the great professor, perhaps.
  3. Don't hold on to what you don't need.
  4. Don't avoid confrontation.
  5. Don't forget your spirit of childhood curiosity.

Recognition

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Awards

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YearOrganizationAwardCitationRef.
1959Japan Nishina Memorial FoundationNishina Memorial Prize"Invention of the Esaki diode."[12]
1961United StatesInstitute of Radio EngineersIRE Morris Liebmann Memorial Prize"For important contributions to the theory and technology of solid state devices, particularly as embodied in the tunnel diode."[13]
1961United StatesFranklin InstituteStuart Ballantine Medal"For the development of the tunnel diode and the discovery and utilization of quantum-mechanical tunneling in semiconductors."[14]
1973SwedenRoyal Swedish Academy of SciencesNobel Prize in Physics[b]"For their experimental discoveries regarding tunneling phenomena in semiconductors and superconductors, respectively."[2]
1985United StatesAmerican Physical SocietyInternational Prize for New Materials[c]"For his conception of artificial semiconductor superlattices and his recognition that such structures have realizable and would have novel electronic properties. His sustained experimental and theoretical efforts have helped lead the way to versatile new materials and technologies."[15]
1989United StatesUniversity of PennsylvaniaHarold Pender Award"Pioneer in tunneling phenomena in semiconductors and development of quantum well structures."[16]
1991United StatesIEEEIEEE Medal of Honor"For contributions to and leadership in tunneling, semiconductor superlattices, and quantum wells."[17]
1998Japan Japan Prize FoundationJapan Prize"For the creation and realization of the concept of man-made superlattice crystals which lead to generation of new materials with useful applications."[4]

Memberships

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YearOrganizationTypeRef.
1960United StatesAmerican Physical SocietyFellow[18]
1975JapanJapan AcademyMember[19]
1976United StatesNational Academy of SciencesInternational Member[20]
1977United StatesNational Academy of EngineeringInternational Member[21]
1991United StatesAmerican Philosophical SocietyMember[22]

Honorary degrees

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YearUniversityDegreeRef.
2001Hong KongHKUSTDoctor of Science[23]

Commemoration

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In recognition of three Nobel laureates' contributions, the bronze statues ofShin'ichirō Tomonaga, Leo Esaki, andMakoto Kobayashi were set up in the Central Park of Azuma 2 inTsukuba in 2015.[24]

See also

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Notes

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  1. ^/ɪˈsɑːki/ih-SAH-kee;[1]Japanese:江崎 玲於奈,romanizedEsaki Reona
  2. ^Awarded jointly withIvar Giaever andBrian Josephson.
  3. ^Awarded jointly withLeroy Chang andRaphael Tsu.

References

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  1. ^"Esaki".Dictionary.com.Archived from the original on June 7, 2025. RetrievedJune 7, 2025.
  2. ^ab"Nobel Prize in Physics 1973".Nobel Foundation.Archived from the original on June 21, 2011. RetrievedOctober 9, 2008.
  3. ^"Leo Esaki – Facts".Nobel Foundation.Archived from the original on July 3, 2025. RetrievedOctober 27, 2025.
  4. ^abcd"Dr. Leo Esaki". Japan Prize Foundation.Archived from the original on August 27, 2025.
  5. ^"Leo Esaki".Encyclopædia Britannica. RetrievedAugust 16, 2025.
  6. ^Esaki, Leo (1958)."New Phenomenon in Narrow Germanium p-n Junctions".Physical Review.109 (2):603–604.Bibcode:1958PhRv..109..603E.doi:10.1103/PhysRev.109.603.
  7. ^"Leo Esaki – Biographical".Nobel Foundation.Archived from the original on February 12, 2025. RetrievedAugust 16, 2025.
  8. ^Esaki, L.;Tsu, R. (1970)."Superlattice and Negative Differential Conductivity in Semiconductors".IBM Journal of Research and Development.14 (1):61–65.doi:10.1147/rd.141.0061.
  9. ^"This Weeks's Citation Classic",Current Contents No 28, July 13, 1987.
  10. ^"Anna Esaki Wed To Craig S. Smith".The New York Times. January 14, 1990. RetrievedAugust 19, 2021.
  11. ^Nordling, Carl (1995)."How to get the Nobel Prize in physics"(PDF).Physica Scripta.59:21–25.Bibcode:1995PhST...59...21N.doi:10.1088/0031-8949/1995/T59/001.S2CID 250817314.
  12. ^"Nishina Memorial Prize". Nishina Memorial Foundation.Archived from the original on June 14, 2025. RetrievedApril 20, 2021.
  13. ^"IEEE Morris N. Liebmann Memorial Award Recipients"(PDF).IEEE. Archived fromthe original(PDF) on March 3, 2016. RetrievedFebruary 27, 2011.
  14. ^"Leo Esaki".Franklin Institute.Archived from the original on August 17, 2024. RetrievedOctober 27, 2025.
  15. ^"James C. McGroddy Prize for New Materials".www.aps.org. RetrievedOctober 8, 2023.
  16. ^"The Harold Pender Award Lecture".University of Pennsylvania.Archived from the original on August 15, 2025. RetrievedSeptember 19, 2024.
  17. ^"Leo Esaki".IEEE.Archived from the original on September 26, 2023. RetrievedMay 13, 2024.
  18. ^"APS Fellows Archive".www.aps.org. RetrievedJuly 30, 2025.
  19. ^"Personal Information - ESAKI Leo".www.japan-acad.go.jp.Archived from the original on July 25, 2022. RetrievedFebruary 2, 2026.
  20. ^"Leo Esaki".www.nasonline.org.Archived from the original on August 13, 2025. RetrievedOctober 27, 2025.
  21. ^"Dr. Leo Esaki".www.nae.edu. RetrievedOctober 27, 2025.
  22. ^"APS Member History".search.amphilsoc.org. RetrievedNovember 1, 2025.
  23. ^"Honorary Doctorates".ccss.hkust.edu.hk. RetrievedNovember 1, 2025.
  24. ^"ノーベル賞:江崎、小林、朝永氏の銅像やレリーフ設置 完成記念式でお披露目 「子どもが夢を」−−つくば・中央公園 /茨城 - 毎日新聞". Archived fromthe original on April 24, 2015. RetrievedAugust 9, 2019.

Further reading

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  • Large scale integrated circuits technology: state of the art and prospects,proceedings of the NATO Advanced Study Institute on "Large Scale Integrated Circuits Technology: State of the Art and Prospects," Erice, Italy, July 15–27, 1981/ edited by Leo Esaki and Giovanni Soncini (1982)
  • Highlights in condensed matter physics and future prospects / edited by Leo Esaki (1991)

External links

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Media related toLeo Esaki at Wikimedia Commons

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