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→‎Selected publications: added ===Books=== sections with 1 title
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==Selected publications==
==Selected publications==
===Articles===
* {{cite journal|doi=10.1063/1.100489|title=''In situ'' formation of superconducting YBa<sub>2</sub>Cu<sub>3</sub>O<sub>7−''X''</sub> thin films using pure ozone vapor oxidation |year=1988 |last1=Berkley |first1=D. D. |last2=Johnson |first2=B. R. |last3=Anand |first3=N. |last4=Beauchamp |first4=K. M. |last5=Conroy |first5=L. E. |last6=Goldman |first6=A. M. |last7=Maps |first7=J. |last8=Mauersberger |first8=K. |last9=Mecartney |first9=M. L. |last10=Morton |first10=J. |last11=Tuominen |first11=M. |last12=Zhang |first12=Y‐J. |journal=Applied Physics Letters |volume=53 |issue=20 |pages=1973–1975 |bibcode=1988ApPhL..53.1973B }}
* {{cite journal|doi=10.1063/1.100489|title=''In situ'' formation of superconducting YBa<sub>2</sub>Cu<sub>3</sub>O<sub>7−''X''</sub> thin films using pure ozone vapor oxidation |year=1988 |last1=Berkley |first1=D. D. |last2=Johnson |first2=B. R. |last3=Anand |first3=N. |last4=Beauchamp |first4=K. M. |last5=Conroy |first5=L. E. |last6=Goldman |first6=A. M. |last7=Maps |first7=J. |last8=Mauersberger |first8=K. |last9=Mecartney |first9=M. L. |last10=Morton |first10=J. |last11=Tuominen |first11=M. |last12=Zhang |first12=Y‐J. |journal=Applied Physics Letters |volume=53 |issue=20 |pages=1973–1975 |bibcode=1988ApPhL..53.1973B }}
* {{cite journal|doi=10.1063/1.103225|title=''In situ'' growth of DyBa<sub>2</sub>Cu<sub>3</sub>O<sub>7−''X''</sub> thin films by molecular beam epitaxy |year=1990 |last1=Johnson |first1=B. R. |last2=Beauchamp |first2=K. M. |last3=Wang |first3=T. |last4=Liu |first4=J‐X. |last5=McGreer |first5=K. A. |last6=Wan |first6=J‐C. |last7=Tuominen |first7=M. |last8=Zhang |first8=Y‐J. |last9=Mecartney |first9=M. L. |last10=Goldman |first10=A. M. |journal=Applied Physics Letters |volume=56 |issue=19 |pages=1911–1913 |bibcode=1990ApPhL..56.1911J }}
* {{cite journal|doi=10.1063/1.103225|title=''In situ'' growth of DyBa<sub>2</sub>Cu<sub>3</sub>O<sub>7−''X''</sub> thin films by molecular beam epitaxy |year=1990 |last1=Johnson |first1=B. R. |last2=Beauchamp |first2=K. M. |last3=Wang |first3=T. |last4=Liu |first4=J‐X. |last5=McGreer |first5=K. A. |last6=Wan |first6=J‐C. |last7=Tuominen |first7=M. |last8=Zhang |first8=Y‐J. |last9=Mecartney |first9=M. L. |last10=Goldman |first10=A. M. |journal=Applied Physics Letters |volume=56 |issue=19 |pages=1911–1913 |bibcode=1990ApPhL..56.1911J }}
Line 32: Line 33:
* {{cite journal|doi=10.1016/j.physc.2015.01.005|title=Superconductivity of very thin films: The superconductor–insulator transition |year=2015 |last1=Lin |first1=Yen-Hsiang |last2=Nelson |first2=J. |last3=Goldman |first3=A.M. |journal=Physica C: Superconductivity and Its Applications |volume=514 |pages=130–141 |bibcode=2015PhyC..514..130L }}
* {{cite journal|doi=10.1016/j.physc.2015.01.005|title=Superconductivity of very thin films: The superconductor–insulator transition |year=2015 |last1=Lin |first1=Yen-Hsiang |last2=Nelson |first2=J. |last3=Goldman |first3=A.M. |journal=Physica C: Superconductivity and Its Applications |volume=514 |pages=130–141 |bibcode=2015PhyC..514..130L }}
* {{cite journal|doi=10.1073/pnas.1613006114|title=''In operando'' evidence of deoxygenation in ionic liquid gating of YBa<sub>2</sub>Cu<sub>3</sub>O<sub>7−X</sub> |year=2017 |last1=Perez-Muñoz |first1=Ana M. |last2=Schio |first2=Pedro |last3=Poloni |first3=Roberta |last4=Fernandez-Martinez |first4=Alejandro |last5=Rivera-Calzada |first5=Alberto |last6=Cezar |first6=Julio C. |last7=Salas-Colera |first7=Eduardo |last8=Castro |first8=German R. |last9=Kinney |first9=Joseph |last10=Leon |first10=Carlos |last11=Santamaria |first11=Jacobo |last12=Garcia-Barriocanal |first12=Javier |last13=Goldman |first13=Allen M. |journal=Proceedings of the National Academy of Sciences |volume=114 |issue=2 |pages=215–220 |pmid=28028236 |pmc=5240725 |bibcode=2017PNAS..114..215P |doi-access=free }}
* {{cite journal|doi=10.1073/pnas.1613006114|title=''In operando'' evidence of deoxygenation in ionic liquid gating of YBa<sub>2</sub>Cu<sub>3</sub>O<sub>7−X</sub> |year=2017 |last1=Perez-Muñoz |first1=Ana M. |last2=Schio |first2=Pedro |last3=Poloni |first3=Roberta |last4=Fernandez-Martinez |first4=Alejandro |last5=Rivera-Calzada |first5=Alberto |last6=Cezar |first6=Julio C. |last7=Salas-Colera |first7=Eduardo |last8=Castro |first8=German R. |last9=Kinney |first9=Joseph |last10=Leon |first10=Carlos |last11=Santamaria |first11=Jacobo |last12=Garcia-Barriocanal |first12=Javier |last13=Goldman |first13=Allen M. |journal=Proceedings of the National Academy of Sciences |volume=114 |issue=2 |pages=215–220 |pmid=28028236 |pmc=5240725 |bibcode=2017PNAS..114..215P |doi-access=free }}
===Books===
* {{cite book|url=https://books.google.com/books?id=HQzTBwAAQBAJ| title=Percolation, Localization, and Superconductivity ''(Proceedings of the NATO Advanced Study Institute on Percolation, Localization, and Superconductivity, held June 19–July, 1983, at Les Arc, Savoie, France)'' | isbn=9781461593942 | editor=Goldman, Allen M.| editor2=Wolf, Stuart A. |editor-link2=Wolf|date=22 November 2013 }} (pbk reprint of 1983 1st edition)


==References==
==References==

Revision as of 16:17, 10 July 2022

Allen Marshall Goldman (born October 18, 1937 in the Bronx, New York City)[1] is an American experimental condensed matter physicist, known for his research on electronic transport properties of superconductors[2] and for the eponymous Carlson-Goldman mode involving collective oscillations in superconductors.[3][4]

Education and career

Goldman graduated in 1954 from the Bronx High School of Science and received in 1958 his bachelor's degree in physics and chemistry from Harvard University. In 1965 he graduated from Stanford University with a Ph.D. in physics.[5] His Ph.D. thesis Properties of superconductors and selected magnetic materials in the configuration of thin films was supervised by William M. Fairbank.[6] Goldman became in 1965 an assistant professor in the physics department of the University of Minnesota. There he was a full professor from 1975 to 1992 and an Institute of Technology Distinguished Professor from 1992 to 2008 with appointment to Regents Professor in 2008. He was also the head of the University of Minnesota's School of Physics and Astronomy from 1996 to 2009.[7] He is now Regents Professor Emeritus.[8]

Goldman is known for his experiments involving "superconductivity, in the configuration of thin films, with an emphasis on the effects of disorder and dimensional constraints."[5] He has done important research on properties of electron transport in them, and, especially, superconducting thin films (two-dimensional systems). In the 1970s he discovered, with his doctoral student Richard V. Carlson,[9] collective oscillations (Carlson-Goldman modes) in thin superconducting films. Such modes are coupled collective oscillations of a thin superconducting film's superconducting part (i.e. Cooper pairs) and the film's quasiparticles. Goldman was one of the pioneers in the study of phase transitions in two-dimensional systems, including the Kosterlitz-Thouless transition in thin superconducting films and networks of Josephson transitions. In the mid-1980s, he and his group developed a new method for producing extremely thin superconducting films and used it to study the phase transition from superconductor to insulator in thin films, which became a prime example of a quantum phase transition. In addition to his research on superconductor-insulator transitions, he and his colleagues have studied "magnetic superconductors, heavy fermion materials, the investigation of the properties of high-Tc superconductors and the electrostatic control of the ground states of novel materials."[5] He made important contributions, using molecular-beam epitaxy, to the development of methods of producing high-Tc superconductors.

In 2002 he received the Fritz London Memorial Prize.[10] In 2015 he received, jointly with Aharon Kapitulnik, Arthur F. Hebard, and Matthew P. A. Fisher, the Oliver E. Buckley Condensed Matter Prize for "discovery and pioneering investigations of the superconductor-insulator transition, a paradigm for quantum phase transitions."[2]

Goldman was elected in 1982 a fellow of the American Association for the Advancement of Science,[11] in 1984 a fellow of the American Physical Society,[12] and in 2007 a member of the National Academy of Sciences. From 1966 to 1970 he was a Sloan Research Fellow. From 2006 to 2008 he was vice-chair and then chair of the Division of Condensed Matter Physics of the American Physical Society.[7]

From 1999 to 2005 he was an associate editor for the Reviews of Modern Physics.[13] The University of Minnesota annually awards the Goldman Fellowship to a graduate student in the physics department.[14]

Selected publications

Articles

  • Berkley, D. D.; Johnson, B. R.; Anand, N.; Beauchamp, K. M.; Conroy, L. E.; Goldman, A. M.; Maps, J.; Mauersberger, K.; Mecartney, M. L.; Morton, J.; Tuominen, M.; Zhang, Y‐J. (1988). "In situ formation of superconducting YBa2Cu3O7−X thin films using pure ozone vapor oxidation". Applied Physics Letters. 53 (20): 1973–1975. Bibcode:1988ApPhL..53.1973B. doi:10.1063/1.100489.
  • Johnson, B. R.; Beauchamp, K. M.; Wang, T.; Liu, J‐X.; McGreer, K. A.; Wan, J‐C.; Tuominen, M.; Zhang, Y‐J.; Mecartney, M. L.; Goldman, A. M. (1990). "In situ growth of DyBa2Cu3O7−X thin films by molecular beam epitaxy". Applied Physics Letters. 56 (19): 1911–1913. Bibcode:1990ApPhL..56.1911J. doi:10.1063/1.103225.
  • Vas'Ko, V. A.; Larkin, V. A.; Kraus, P. A.; Nikolaev, K. R.; Grupp, D. E.; Nordman, C. A.; Goldman, A. M. (1997). "Critical Current Suppression in a Superconductor by Injection of Spin-Polarized Carriers from a Ferromagnet". Physical Review Letters. 78 (6): 1134–1137. Bibcode:1997PhRvL..78.1134V. doi:10.1103/PhysRevLett.78.1134.
  • Grupp, Daniel E.; Goldman, Allen M. (1997). "Giant Piezoelectric Effect in Strontium Titanate at Cryogenic Temperatures". Science. 276 (5311): 392–394. doi:10.1126/science.276.5311.392. PMID 9103192.
  • Goldman, Allen M.; Marković, Nina (1998). "Superconductor‐Insulator Transitions in the Two‐Dimensional Limit". Physics Today. 51 (11): 39–44. Bibcode:1998PhT....51k..39G. doi:10.1063/1.882069.
  • Vas'Ko, V. A.; Nikolaev, K. R.; Larkin, V. A.; Kraus, P. A.; Goldman, A. M. (1998). "Differential conductance of the ferromagnet/Superconductor interface of DyBa2 Cu3 O7/La2/3 Ba1/3 MnO3 heterostructures". Applied Physics Letters. 73 (6): 844–846. Bibcode:1998ApPhL..73..844V. doi:10.1063/1.122020.
  • Bhattacharya, A.; Eblen-Zayas, M.; Staley, N. E.; Huber, W. H.; Goldman, A. M. (2004). "Micromachined SrTiO3 single crystals as dielectrics for electrostatic doping of thin films". Applied Physics Letters. 85 (6): 997–999. Bibcode:2004ApPhL..85..997B. doi:10.1063/1.1777415.
  • Parendo, Kevin A.; Tan, K. H. Sarwa B.; Bhattacharya, A.; Eblen-Zayas, M.; Staley, N. E.; Goldman, A. M.; Goldman, A. M. (2005). "Electrostatic Tuning of the Superconductor-Insulator Transition in Two Dimensions". Physical Review Letters. 94 (19): 197004. arXiv:cond-mat/0501666. Bibcode:2005PhRvL..94s7004P. doi:10.1103/PhysREvLett.94.197004. PMID 16090201. S2CID 21435961. 2005
  • Ahn, C. H.; Bhattacharya, A.; Di Ventra, M.; Eckstein, J. N.; Frisbie, C. Daniel; Gershenson, M. E.; Goldman, A. M.; Inoue, I. H.; Mannhart, J.; Millis, Andrew J.; Morpurgo, Alberto F.; Natelson, Douglas; Triscone, Jean-Marc (2006). "Electrostatic modification of novel materials". Reviews of Modern Physics. 78 (4): 1185–1212. Bibcode:2006RvMP...78.1185A. doi:10.1103/RevModPhys.78.1185.
  • Nishioka, Masaya; Goldman, A. M. (2007). "Spin transport through multilayer graphene". Applied Physics Letters. 90 (25): 252505. Bibcode:2007ApPhL..90y2505N. doi:10.1063/1.2750397.
  • Goldman, A. M. (2010). "Superconductor-Insulator Transitions". BCS: 50 Years. pp. 255–275. doi:10.1142/9789814304665_0012. ISBN 978-981-4304-64-1.
  • Lin, Yen-Hsiang; Nelson, J.; Goldman, A. M. (2012). "Suppression of the Berezinskii-Kosterlitz-Thouless Transition in 2D Superconductors by Macroscopic Quantum Tunneling". Physical Review Letters. 109 (1): 017002. Bibcode:2012PhRvL.109a7002L. doi:10.1103/PhysRevLett.109.017002. PMID 23031125. S2CID 19332613.
  • Garcia-Barriocanal, J.; Kobrinskii, A.; Leng, X.; Kinney, J.; Yang, B.; Snyder, S.; Goldman, A. M. (2013). "Electronically driven superconductor-insulator transition in electrostatically doped La2CuO4+δ thin films". Physical Review B. 87 (2): 024509. arXiv:1210.7458. Bibcode:2013PhRvB..87b4509G. doi:10.1103/PhysRevB.87.024509. S2CID 118647764.
  • Lee, Yeonbae; Frydman, Aviad; Chen, Tianran; Skinner, Brian; Goldman, A. M. (2013). "Electrostatic tuning of the properties of disordered indium-oxide films near the superconductor-insulator transition". Physical Review B. 88 (2): 024509. arXiv:1212.5177. Bibcode:2013PhRvB..88b4509L. doi:10.1103/PhysRevB.88.024509. S2CID 119239722.
  • Goldman, A. M. (2013). "The Berezinskii–Kosterlitz–Thouless Transition in Superconductors". 40 Years of Berezinskii–Kosterlitz–Thouless Theory. pp. 135–160. doi:10.1142/9789814417648_0004. ISBN 978-981-4417-62-4.
  • Goldman, A.M. (2014). "Electrostatic Gating of Ultrathin Films". Annual Review of Materials Research. 44: 45–63. Bibcode:2014AnRMS..44...45G. doi:10.1146/annurev-matsci-070813-113407.
  • Chen, Yu; Lin, Yen-Hsiang; Snyder, Stephen D.; Goldman, Allen M.; Kamenev, Alex (2014). "Dissipative superconducting state of non-equilibrium nanowires". Nature Physics. 10 (8): 567–571. arXiv:1403.6880. Bibcode:2014NatPh..10..567C. doi:10.1038/nphys3008.
  • Lin, Yen-Hsiang; Nelson, J.; Goldman, A.M. (2015). "Superconductivity of very thin films: The superconductor–insulator transition". Physica C: Superconductivity and Its Applications. 514: 130–141. Bibcode:2015PhyC..514..130L. doi:10.1016/j.physc.2015.01.005.
  • Perez-Muñoz, Ana M.; Schio, Pedro; Poloni, Roberta; Fernandez-Martinez, Alejandro; Rivera-Calzada, Alberto; Cezar, Julio C.; Salas-Colera, Eduardo; Castro, German R.; Kinney, Joseph; Leon, Carlos; Santamaria, Jacobo; Garcia-Barriocanal, Javier; Goldman, Allen M. (2017). "In operando evidence of deoxygenation in ionic liquid gating of YBa2Cu3O7−X". Proceedings of the National Academy of Sciences. 114 (2): 215–220. Bibcode:2017PNAS..114..215P. doi:10.1073/pnas.1613006114. PMC 5240725. PMID 28028236.

Books

References

  1. ^ biographical information from American Men and Women of Science, Thomson Gale 2004
  2. ^ a b "2015 Oliver E. Buckley Prize Recipient, Allen Goldman". American Physical Society.
  3. ^ Artemenko, S. N.; Volkov, A. F. (1997). "Collective oscillations in superconductors revisited". arXiv preprint cond-mat/9712086v1.
  4. ^ Carlson, R. V.; Goldman, A. M. (1975). "Propagating order-parameter collective modes in superconducting films". Physical Review Letters. 34 (1): 11–15. doi:10.1103/PhysRevLett.34.11.
  5. ^ a b c "Allen M. Goldman". National Academy of Sciences.
  6. ^ "Allen M. Goldman". Physics Tree.
  7. ^ a b "Allen M. Goldman". American Institute of Physics.
  8. ^ "Allen Goldman". School of Physics and Astronomy, University of Minnesota.
  9. ^ Carlson, Richard Vernal (1975). Order parameter fluctuations and collective modes in superconductors, No. COO-1569-128. Minneapolis: University of Minnesota. doi:10.2172/4187343.
  10. ^ Weisman, Wendy (August 2002). "U Professor receives award for low-temperature physics research". The Minnesota Daily (serving the UMN community since 1900).
  11. ^ "Historic Fellows". American Association for the Advancement of Science. (search on last name "Goldman")
  12. ^ "APS Fellow Archive". American Physical Society. (search on year=1984 and institution=university of Minnesota, Minneapolis)
  13. ^ "Allen Goldman". School of Physics and Astronomy, University of Minnesota.
  14. ^ "Professor Allen M. Goldman Fellowship". School of Physics and Astronomy, University of Minnesota.

External links

Retrieved from "https://en.wikipedia.org/w/index.php?title=Allen_Goldman&oldid=1097413659"