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{{Use dmy dates|date=December 2021}}
{{short description|Japanese physicist}}
{{short description|Japanese physicist}}
{{Infobox scientist
{{Infobox scientist
|birth_name = 香取 秀俊
|birth_name = 香取 秀俊
| image =
| image = Hidetoshi Katori cropped 1 Hidetoshi Katori 20150312.jpg
| caption =
| caption = Hidetoshi Katori
| birth_date = {{birth date and age |1953|09|10}}
| birth_date = {{birth date and age |1964|09|27}}
| birth_place = [[Tokyo]], [[Japan]]
| birth_place = [[Tokyo]], [[Japan]]
| nationality = Japan
| nationality = Japanese
| field = [[Physics]]
| field = [[Physics]]
| work_institution = [[University of Tokyo]]
| work_institution = [[University of Tokyo]]
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| doctoral_students =
| doctoral_students =
| known_for = [[Grating]]<br />Ultra precise [[atomic clock]]<br />[[Optical lattice]]
| known_for = [[Grating]]<br />Ultra precise [[atomic clock]]<br />[[Optical lattice]]
| prizes = [[I. I. Rabi Award]] (2008)<br/>[[Asahi Prize]] (2012)<br/>[[Nishina Memorial Prize]] (2013)<br/>[[Medals of Honor (Japan)|Medal with Purple Ribbon]] (2014)<br/>[[Japan Academy Prize (academics)|Japan Academy Prize]] (2015)
| prizes = [[I. I. Rabi Award]] (2008)<br/>[[Asahi Prize]] (2012)<br/>[[Nishina Memorial Prize]] (2013)<br/>[[Medals of Honor (Japan)|Medal with Purple Ribbon]] (2014)<br/>[[Japan Academy Prize (academics)|Japan Academy Prize]] (2015)<br/>[[Micius Quantum Prize]] (2020)<br/>[[Breakthrough Prize in Fundamental Physics]] (2022)
}}
}}
{{Nihongo|'''Hidetoshi Katori'''|香取秀俊|Katori Hidetoshi|born 27 September 1964}} is a [[Japanese people|Japanese]] [[physicist]] and professor at the [[University of Tokyo]] best known for having invented the [[magic wavelength]] technique for ultra precise optical lattice [[atomic clocks]].<ref name="japan-acad">{{cite web|url=http://www.japan-acad.go.jp/japanese/news/2015/031201.html|title=日本学士院賞授賞の決定について &#124; 日本学士院|website=japan-acad.go.jp|access-date=10 March 2019}}</ref> Since 2011, Katori is also Chief Scientist at the Quantum Metrology Lab, [[RIKEN]].<ref>{{Cite web|url=http://www.amo.t.u-tokyo.ac.jp/e_ynbw/03_katori.html|title=Katori & Ushijima Laboratory, The University of Tokyo|website=www.amo.t.u-tokyo.ac.jp|accessdate=14 December 2021}}</ref>


Recently, Katori's group performed a measurement of [[gravitational redshift]] with two transportable [[strontium]] optical lattice clocks over nearly the entire height of the [[Tokyo Skytree]], setting a new record for the best ground-based test of [[general relativity]].<ref>{{Cite journal|doi = 10.1063/PT.3.4496|title = Transportable atomic clocks achieve laboratory precision|year = 2020|last1 = Middleton|first1 = Christine|journal = Physics Today|volume = 73|issue = 6|pages = 20–21|bibcode = 2020PhT....73f..20M|doi-access = free}}</ref><ref>{{Cite web|url=https://www.katori-project.t.u-tokyo.ac.jp/freedom/2020_1_press/2020_1_press.html|title=光格子時計プロジェクト/プレスリリース「18桁精度の可搬型光格子時計の開発に世界で初めて成功」|website=www.katori-project.t.u-tokyo.ac.jp|accessdate=14 December 2021}}</ref>
{{Nihongo|'''Hidetoshi Katori'''|香取秀俊|Katori Hidetoshi|born September 27, 1964}}, is a Japanese physicist best known for developed [[grating]] and ultra precise [[atomic clock]].<ref name="japan-acad">{{cite web|url=http://www.japan-acad.go.jp/japanese/news/2015/031201.html|title=日本学士院賞授賞の決定について &#124; 日本学士院|website=japan-acad.go.jp|accessdate=2019-03-10}}</ref>


==Recognition==
==Recognition==
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*2015 – [[Japan Academy Prize (academics)]]
*2015 – [[Japan Academy Prize (academics)]]
*2017 – [[:ja:江崎玲於奈賞|Leo Esaki Prize]]
*2017 – [[:ja:江崎玲於奈賞|Leo Esaki Prize]]
*2022 – [[Breakthrough Prize in Fundamental Physics]]<ref>{{cite web|url=https://breakthroughprize.org/News/65|title=Winners of the 2022 Breakthrough Prizes in life sciences, fundamental physics and mathematics announced|access-date=9 September 2020}}</ref>


==Selected publications==
==Selected publications==
*Ichiro Ushijima, Masao Takamoto, Manoj Das, Takuya Ohkubo, H. Katori, "Cryogenic optical lattice clocks", Nature Photonics 02/2015; 9(3). DOI: 10.1038/nphoton.2015.5
* {{cite journal | last1=Ushijima | first1=Ichiro | last2=Takamoto | first2=Masao | last3=Das | first3=Manoj | last4=Ohkubo | first4=Takuya | last5=Katori | first5=Hidetoshi | title=Cryogenic optical lattice clocks | journal=Nature Photonics | publisher=Springer Science and Business Media LLC | volume=9 | issue=3 | date=9 February 2015 | issn=1749-4885 | doi=10.1038/nphoton.2015.5 | pages=185–189| bibcode=2015NaPho...9..185U }}
*A. Yamaguchi, M. Fujieda, M. Kumagai, H. Hachisu, S. Nagano, Y. Li, T. Ido, T. Takano, M. Takamoto, and H. Katori, “Direct Comparison of Distant Optical Lattice Clocks at the10-16 Uncertainty,” Appl. Phys. Exp. 4, 082203 (2011).(第34回応用物理学会論文賞)
* {{cite journal | last1=Yamaguchi | first1=Atsushi | last2=Fujieda | first2=Miho | last3=Kumagai | first3=Motohiro | last4=Hachisu | first4=Hidekazu | last5=Nagano | first5=Shigeo | last6=Li | first6=Ying | last7=Ido | first7=Tetsuya | last8=Takano | first8=Tetsushi | last9=Takamoto | first9=Masao | last10=Katori | first10=Hidetoshi | title=Direct Comparison of Distant Optical Lattice Clocks at the $10^{-16}$ Uncertainty | journal=Applied Physics Express | publisher=IOP Publishing | volume=4 | issue=8 | date=4 August 2011 | issn=1882-0778 | doi=10.1143/apex.4.082203 | page=082203| arxiv=1108.2774 | s2cid=118692461 }}
*H. Katori, K. Hashiguchi, E. Yu. Il'inova, V. D. Ovsiannikov, “Magic Wavelength to Make Optical Lattice Clocks Insensitive to Atomic Motion,” Phys. Rev. Lett. 103, 153004 (2009). (魔法波長)
* {{cite journal | last1=Katori | first1=Hidetoshi | last2=Hashiguchi | first2=Koji | last3=Il’inova | first3=E. Yu. | last4=Ovsiannikov | first4=V. D. | title=Magic Wavelength to Make Optical Lattice Clocks Insensitive to Atomic Motion | journal=Physical Review Letters | publisher=American Physical Society (APS) | volume=103 | issue=15 | date=9 October 2009 | page=153004 | issn=0031-9007 | doi=10.1103/physrevlett.103.153004| pmid=19905634 | bibcode=2009PhRvL.103o3004K }}
*M. Takamoto, F.-L. Hong, R. Higashi, Y. Fujii, M. Imae and H. Katori, “Improved Frequency Measurement of a One-Dimensional Optical Lattice Clock with a Spin-Polarized Fermionic 87Sr Isotope,” J. Phys. Soc. Jpn. 75, 104302 (2006). (日本物理学会 第18回論文賞)
* {{cite journal | last1=Takamoto | first1=Masao | last2=Hong | first2=Feng-Lei | last3=Higashi | first3=Ryoichi | last4=Fujii | first4=Yasuhisa | last5=Imae | first5=Michito | last6=Katori | first6=Hidetoshi | title=Improved Frequency Measurement of a One-Dimensional Optical Lattice Clock with a Spin-Polarized Fermionic87Sr Isotope | journal=Journal of the Physical Society of Japan | publisher=Japan Society of Applied Physics | volume=75 | issue=10 | date=15 October 2006 | issn=0031-9015 | doi=10.1143/jpsj.75.104302 | page=104302| arxiv=physics/0608212 | bibcode=2006JPSJ...75j4302T | s2cid=17685448 }}
*Masao Takamoto, Feng-Lei Hong, Ryoichi Higashi & Hidetoshi Katori,"An optical lattice clock", Letters to Editor, Nature 435, 321–324 (19 May 2005) | doi:10.1038/nature03541
* {{cite journal | last1=Takamoto | first1=Masao | last2=Hong | first2=Feng-Lei | last3=Higashi | first3=Ryoichi | last4=Katori | first4=Hidetoshi | title=An optical lattice clock | journal=Nature | publisher=Springer Science and Business Media LLC | volume=435 | issue=7040 | year=2005 | issn=0028-0836 | doi=10.1038/nature03541 | pages=321–324| pmid=15902252 | bibcode=2005Natur.435..321T | s2cid=4426565 }}
* {{cite conference | last=KATORI | first=HIDETOSHI | title=Frequency Standards and Metrology | chapter=SPECTROSCOPY OF STRONTIUM ATOMS IN THE LAMB-DICKE CONFINEMENT | publisher=WORLD SCIENTIFIC | year=2002 | pages=323–330 | doi=10.1142/9789812777713_0036| isbn=978-981-02-4911-3 }}
*H. Katori, “Spectroscopy of strontium atoms in the Lamb-Dicke confinement,” in the 6th Symposium on Frequency Standards and Metrology, edited by Patric Gill (World Scientific, Singapore, 2002), pp.&nbsp;323–330.(光格子時計の最初の提案)
* {{cite journal | last1=Katori | first1=Hidetoshi | last2=Ido | first2=Tetsuya | last3=Kuwata-Gonokami | first3=Makoto | title=Optimal Design of Dipole Potentials for Efficient Loading of Sr Atoms | journal=Journal of the Physical Society of Japan | publisher=Physical Society of Japan | volume=68 | issue=8 | date=15 August 1999 | issn=0031-9015 | doi=10.1143/jpsj.68.2479 | pages=2479–2482| bibcode=1999JPSJ...68.2479K }}
*H. Katori, T. Ido, and M. K.-Gonokami, “Optimal design of dipole potentials for efficient loading of Sr atoms,” J. Phys. Soc. Jpn., 68, 2479–2482 (1999).(日本物理学会第6回論文賞)
* {{cite journal | last1=Katori | first1=Hidetoshi | last2=Ido | first2=Tetsuya | last3=Isoya | first3=Yoshitomo | last4=Kuwata-Gonokami | first4=Makoto | title=Magneto-Optical Trapping and Cooling of Strontium Atoms down to the Photon Recoil Temperature | journal=Physical Review Letters | publisher=American Physical Society (APS) | volume=82 | issue=6 | date=8 February 1999 | issn=0031-9007 | doi=10.1103/physrevlett.82.1116 | pages=1116–1119| bibcode=1999PhRvL..82.1116K }}
*H. Katori, T. Ido, Y. Isoya, and M. K.-Gonokami, “Magneto-optical trapping and cooling of strontium atoms down to the photon recoil temperature,” Phys. Rev. Lett., 82, 1116–1119 (1999).


==References==
==References==
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==External links==
==External links==
* {{cite web|title=Homepage|periodical=|publisher=University of Tokyo|url=http://www.amo.t.u-tokyo.ac.jp/e_ynbw/03_katori.html|deadurl=|accessdate=2018-11-24|archiveurl=|archivedate=|last=|date=|year=|month=|day=|language=en|pages=|quote=}}
* {{cite web|title=Homepage|periodical=|publisher=University of Tokyo|url=http://www.amo.t.u-tokyo.ac.jp/e_ynbw/03_katori.html|access-date=24 November 2018|last=|date=|year=|language=en|pages=|quote=}}
* {{cite web|title=Publishing House|periodical=|publisher=Scopus|url=https://www.scopus.com/authid/detail.uri?authorId=35452770200|deadurl=|format=|accessdate=2018-11-24|archiveurl=|archivedate=|last=|date=|year=|month=|day=|language=|pages=|quote=}}
* {{cite web|title=Publishing House|periodical=|publisher=Scopus|url=https://www.scopus.com/authid/detail.uri?authorId=35452770200|format=|access-date=24 November 2018|last=|date=|year=|language=|pages=|quote=}}


{{Breakthrough Prize laureates}}
{{Authority control}}
{{Authority control}}


{{DEFAULTSORT:Miyasaka, Tsutomu}}
{{DEFAULTSORT:Katori, Hidetoshi}}
[[Category:Japanese physicists]]
[[Category:Japanese physicists]]
[[Category:Japanese academics]]
[[Category:People from Tokyo]]
[[Category:University of Tokyo alumni]]
[[Category:University of Tokyo alumni]]
[[Category:University of Tokyo faculty]]
[[Category:Academic staff of the University of Tokyo]]
[[Category:Recipients of the Medal with Purple Ribbon]]
[[Category:Recipients of the Medal with Purple Ribbon]]
[[Category:1964 births]]
[[Category:1964 births]]

Revision as of 05:23, 20 March 2024

Hidetoshi Katori
Hidetoshi Katori
Born
香取 秀俊

(1964-09-27) September 27, 1964 (age 60)
NationalityJapanese
Alma materUniversity of Tokyo
Known forGrating
Ultra precise atomic clock
Optical lattice
AwardsI. I. Rabi Award (2008)
Asahi Prize (2012)
Nishina Memorial Prize (2013)
Medal with Purple Ribbon (2014)
Japan Academy Prize (2015)
Micius Quantum Prize (2020)
Breakthrough Prize in Fundamental Physics (2022)
Scientific career
FieldsPhysics
InstitutionsUniversity of Tokyo

Hidetoshi Katori (香取秀俊, Katori Hidetoshi, born 27 September 1964) is a Japanese physicist and professor at the University of Tokyo best known for having invented the magic wavelength technique for ultra precise optical lattice atomic clocks.[1] Since 2011, Katori is also Chief Scientist at the Quantum Metrology Lab, RIKEN.[2]

Recently, Katori's group performed a measurement of gravitational redshift with two transportable strontium optical lattice clocks over nearly the entire height of the Tokyo Skytree, setting a new record for the best ground-based test of general relativity.[3][4]

Recognition

Selected publications

  • Ushijima, Ichiro; Takamoto, Masao; Das, Manoj; Ohkubo, Takuya; Katori, Hidetoshi (9 February 2015). "Cryogenic optical lattice clocks". Nature Photonics. 9 (3). Springer Science and Business Media LLC: 185–189. Bibcode:2015NaPho...9..185U. doi:10.1038/nphoton.2015.5. ISSN 1749-4885.
  • Yamaguchi, Atsushi; Fujieda, Miho; Kumagai, Motohiro; Hachisu, Hidekazu; Nagano, Shigeo; Li, Ying; Ido, Tetsuya; Takano, Tetsushi; Takamoto, Masao; Katori, Hidetoshi (4 August 2011). "Direct Comparison of Distant Optical Lattice Clocks at the $10^{-16}$ Uncertainty". Applied Physics Express. 4 (8). IOP Publishing: 082203. arXiv:1108.2774. doi:10.1143/apex.4.082203. ISSN 1882-0778. S2CID 118692461.
  • Katori, Hidetoshi; Hashiguchi, Koji; Il’inova, E. Yu.; Ovsiannikov, V. D. (9 October 2009). "Magic Wavelength to Make Optical Lattice Clocks Insensitive to Atomic Motion". Physical Review Letters. 103 (15). American Physical Society (APS): 153004. Bibcode:2009PhRvL.103o3004K. doi:10.1103/physrevlett.103.153004. ISSN 0031-9007. PMID 19905634.
  • Takamoto, Masao; Hong, Feng-Lei; Higashi, Ryoichi; Fujii, Yasuhisa; Imae, Michito; Katori, Hidetoshi (15 October 2006). "Improved Frequency Measurement of a One-Dimensional Optical Lattice Clock with a Spin-Polarized Fermionic87Sr Isotope". Journal of the Physical Society of Japan. 75 (10). Japan Society of Applied Physics: 104302. arXiv:physics/0608212. Bibcode:2006JPSJ...75j4302T. doi:10.1143/jpsj.75.104302. ISSN 0031-9015. S2CID 17685448.
  • Takamoto, Masao; Hong, Feng-Lei; Higashi, Ryoichi; Katori, Hidetoshi (2005). "An optical lattice clock". Nature. 435 (7040). Springer Science and Business Media LLC: 321–324. Bibcode:2005Natur.435..321T. doi:10.1038/nature03541. ISSN 0028-0836. PMID 15902252. S2CID 4426565.
  • KATORI, HIDETOSHI (2002). "SPECTROSCOPY OF STRONTIUM ATOMS IN THE LAMB-DICKE CONFINEMENT". Frequency Standards and Metrology. WORLD SCIENTIFIC. pp. 323–330. doi:10.1142/9789812777713_0036. ISBN 978-981-02-4911-3.
  • Katori, Hidetoshi; Ido, Tetsuya; Kuwata-Gonokami, Makoto (15 August 1999). "Optimal Design of Dipole Potentials for Efficient Loading of Sr Atoms". Journal of the Physical Society of Japan. 68 (8). Physical Society of Japan: 2479–2482. Bibcode:1999JPSJ...68.2479K. doi:10.1143/jpsj.68.2479. ISSN 0031-9015.
  • Katori, Hidetoshi; Ido, Tetsuya; Isoya, Yoshitomo; Kuwata-Gonokami, Makoto (8 February 1999). "Magneto-Optical Trapping and Cooling of Strontium Atoms down to the Photon Recoil Temperature". Physical Review Letters. 82 (6). American Physical Society (APS): 1116–1119. Bibcode:1999PhRvL..82.1116K. doi:10.1103/physrevlett.82.1116. ISSN 0031-9007.

References