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{{short description|Japanese physicist}} |
{{short description|Japanese physicist}} |
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{{Infobox scientist |
{{Infobox scientist |
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|birth_name = 香取 秀俊 |
|birth_name = 香取 秀俊 |
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| image = |
| image = Hidetoshi Katori cropped 1 Hidetoshi Katori 20150312.jpg |
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| caption = |
| caption = Hidetoshi Katori |
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| birth_date = {{birth date and age | |
| birth_date = {{birth date and age |1964|09|27}} |
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| birth_place = [[Tokyo]], [[Japan]] |
| birth_place = [[Tokyo]], [[Japan]] |
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| nationality = |
| nationality = Japanese |
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| field = [[Physics]] |
| field = [[Physics]] |
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| work_institution = [[University of Tokyo]] |
| work_institution = [[University of Tokyo]] |
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| doctoral_students = |
| doctoral_students = |
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| known_for = [[Grating]]<br />Ultra precise [[atomic clock]]<br />[[Optical lattice]] |
| known_for = [[Grating]]<br />Ultra precise [[atomic clock]]<br />[[Optical lattice]] |
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| 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) |
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⚫ | {{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 | 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> |
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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> |
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⚫ | {{Nihongo|'''Hidetoshi Katori'''|香取秀俊|Katori Hidetoshi|born |
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==Recognition== |
==Recognition== |
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*2015 – [[Japan Academy Prize (academics)]] |
*2015 – [[Japan Academy Prize (academics)]] |
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*2017 – [[:ja:江崎玲於奈賞|Leo Esaki Prize]] |
*2017 – [[:ja:江崎玲於奈賞|Leo Esaki Prize]] |
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*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> |
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==Selected publications== |
==Selected publications== |
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* |
* {{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 }} |
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* |
* {{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 }} |
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* |
* {{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 }} |
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* |
* {{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 }} |
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* |
* {{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 }} |
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* {{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 }} |
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*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. 323–330.(光格子時計の最初の提案) |
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* {{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 }} |
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*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) |
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* {{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 }} |
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*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). |
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==References== |
==References== |
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==External links== |
==External links== |
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* {{cite web|title=Homepage|periodical=|publisher=University of Tokyo|url=http://www.amo.t.u-tokyo.ac.jp/e_ynbw/03_katori.html| |
* {{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=}} |
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* {{cite web|title=Publishing House|periodical=|publisher=Scopus|url=https://www.scopus.com/authid/detail.uri?authorId=35452770200 |
* {{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=}} |
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{{Breakthrough Prize laureates}} |
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{{Authority control}} |
{{Authority control}} |
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{{DEFAULTSORT: |
{{DEFAULTSORT:Katori, Hidetoshi}} |
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[[Category:Japanese physicists]] |
[[Category:Japanese physicists]] |
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[[Category:Japanese academics]] |
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[[Category:People from Tokyo]] |
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[[Category:University of Tokyo alumni]] |
[[Category:University of Tokyo alumni]] |
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[[Category:University of Tokyo |
[[Category:Academic staff of the University of Tokyo]] |
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[[Category:Recipients of the Medal with Purple Ribbon]] |
[[Category:Recipients of the Medal with Purple Ribbon]] |
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[[Category:1964 births]] |
[[Category:1964 births]] |
Revision as of 05:23, 20 March 2024
Hidetoshi Katori | |
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Born | 香取 秀俊 September 27, 1964 |
Nationality | Japanese |
Alma mater | University of Tokyo |
Known for | Grating Ultra precise atomic clock Optical lattice |
Awards | I. 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 | |
Fields | Physics |
Institutions | University 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
- 2005 – Award of Japan Society for the Promotion of Science
- 2005 – Springer Nature Applied Physics Award
- 2006 – Japan IBM Science Prize
- 2008 – I. I. Rabi Award
- 2010 – Ichimura Academic Award
- 2011 – Award of Minister of MEXT
- 2011 – Philipp Franz von Siebold-Preis, Germany
- 2012 – Asahi Prize
- 2013 – Nishina Memorial Prize
- 2013 – Fujiwara Prize
- 2013 – Toray Award in Science and Technology
- 2014 – Medal with Purple Ribbon
- 2015 – Japan Academy Prize (academics)
- 2017 – Leo Esaki Prize
- 2022 – Breakthrough Prize in Fundamental Physics[5]
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
- ^ "日本学士院賞授賞の決定について | 日本学士院". japan-acad.go.jp. Retrieved 10 March 2019.
- ^ "Katori & Ushijima Laboratory, The University of Tokyo". www.amo.t.u-tokyo.ac.jp. Retrieved 14 December 2021.
- ^ Middleton, Christine (2020). "Transportable atomic clocks achieve laboratory precision". Physics Today. 73 (6): 20–21. Bibcode:2020PhT....73f..20M. doi:10.1063/PT.3.4496.
- ^ "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」". www.katori-project.t.u-tokyo.ac.jp. Retrieved 14 December 2021.
- ^ "Winners of the 2022 Breakthrough Prizes in life sciences, fundamental physics and mathematics announced". Retrieved 9 September 2020.
External links
- "Homepage". University of Tokyo. Retrieved 24 November 2018.
- "Publishing House". Scopus. Retrieved 24 November 2018.