정상욱

정상욱
정상욱
본명	대한민국
로마자 표기	대한민국
안식처	대한민국
거주지	대한민국
성별	대한민국
국적	대한민국
교육	UCLA
출신 학교	UCLA
분야	물리
소속	럿커스 대학교 교수

정상욱은 한국의 물리학 과학자이다. 그는 물리학계에서 저명한 상에 해당하는 James C. McGroddy상을 한국인 최초로 수여 받았다. 주목할 만한 업적으로는 'Enhanced physical functionalities in complex materials originating from collective correlations and collective phase transitions such as colossal magnetoresistive and colossal magnetoelectric effects in complex oxides' 관련 논문을 게재하였다. 국제적인 학회지들의 논문 피인용수에 근거하면 노벨상 수상에 근접한 과학자이다.^[1]

학위사항[편집]

• 서울대학교 수학과 학사
• UCLA 물리학 석사
• 1989: UCLA 물리학 박사

경력사항[편집]

• 1991-96 : Member of Technical Staff, AT&T Bell Laboratories, NJ
• 1989-91 : Postdoctoral Member, AT&T Bell Laboratories, NJ
• 1997-01 : Professor (tenured), Physics, Rutgers University, NJ
• 1997-01 : Member of Technical Staff, Bell Laboratories, Lucent Technologies, NJ
• 2001-02 : Consultant, Bell Laboratories, Lucent Technologies, NJ
• 2002 : Distinguished Professor, Physics, Rutgers University, NJ
• 2005 : Director, Rutgers Center for Emergent Materials
• 2006-08 : Donald H. Jacobs Chair in Applied Physics, Rutgers
• 2006 : Distinguished Professor, Postech, S. Korea
• 2011 : Board of Governors Professor, Rutgers

수상내역[편집]

• 2000 : Fellow, American Physical Society
• 2003 : Board of Trustees Award for Excellence in Research at Rutgers University
• 2003 : 13th Most Cited Physicist in the world for the last decade^[2]
• 2004 : Foreign Research Fellow (Visiting Professor), Graduate School of Frontier Sciences, U. of Tokyo, Japan
• 2007 : Ho-Am Prize in Science
• 2008 : Distinguished Visiting Scholar, National Synchrotron Radiation Research Center, Taiwan.
• 2008-2011 : Editorial Board of Physical Review Letters – Divisional Associated Editor
• 2010 : 2010 James C. McGroddy Prize for New Materials, APS
• 2012 : Lee Hsun Research Fellowship on Materials Science, IMR, CAS

주요 연구논문[편집]

• 1991: Incommensurate Magnetic Fluctuations in La2-xSrxCuO4, S-W. Cheong, G. Aeppli, T. E. Mason, H. Mook, S. M. Hayden, P. C. Canfield, Z. Fisk, K. N. Clausen and J. L. Martinez, Phys. Rev. Lett. 67, 1791 (1991). [Times Cited: 503]^[3]
• 1995: Low-Temperature Magnetoresistance and the Magnetic Phase-Diagram of La1-xCaxMnO3, P. Schiffer, A. P. Ramirez, W. Bao and S-W. Cheong, Phys. Rev. Lett. 75, 3336 (1995). [Times Cited: 1,593]^[4]
• 1995: Lattice Effects on the Magnetoresistance in Doped LaMnO3, H. Y. Hwang, S-W. Cheong, P. G. Radaelli et al., Phys. Rev. Lett. 75, 914 (1995). [Times Cited: 1,620]^[5]
• 1998: Pairing of Charge-Ordered Stripes in (La,Ca)MnO3, S. Mori, C. H. Chen and S-W. Cheong, Nature 392, 473 (1998). [Times Cited: 524]^[6]
• 1999: Percolative Phase Separation Underlies Colossal Magnetoresistance in Mixed-Valent Manganites, M. Uehara, S. Mori, C. H. Chen, and S-W. Cheong, Nature 399, 560 (1999). [Times Cited: 1,080]^[7]
• 2004: Electric polarization reversal and memory in a multiferroics materials induced by magnetic fields, N. Hur, S. Park, P. A. Sharma, J. S. Ahn, S. Guha and S-W. Cheong, Nature 429, 292 (2004). [Times Cited: 968]^[8]
• 2007: Multiferroics: a magnetic twist for ferroelectricity, S-W. Cheong and M. Mostovoy, Nature Materials 6, 14 (2007). [Times Cited: 1,349]^[9]
• 2009: Switchable ferroelectric diode and photovoltaic effect in BiFeO3, T. Choi, S lee, Y. J. Choi, V. Kityukhin and S-W. Cheong, Science 327, 63 (2009). [Times Cited: 292]^[10]
• 2010: Insulating Interlocked Ferroelectric and Structural Antiphase Domain Walls in Multiferroic YMnO3, T. Choi, Y. Horibe, H. T. Yi, Y. J. Choi, Weida. Wu, and S-W. Cheong, Nature Materials 9, 253 (2010).^[11]
• 2010: Self-organization, condensation, and annihilation of topological vortices and antivortices in a multiferroic, S. C. Chae, Y. Horibe, D. Y. Jeong, S. Rodan, N. Lee, and S.-W. Cheong, PNAS 107, 21366^[12]

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