Press & Online News Center
We are happy to join this conference, we made new friendships through networking opportunities, definitely will join next time.
It was an amazing experience being here with such an inspiring group of womens all over the world, i want to congratulate the organizers for organizing this event and wish him to organize many many successful events in the future.
Central Connecticut State University, USA
Biography
Dr. Ju Kim joined Central Connecticut State University in August 2019 after four years in a leadership position at the University of Houston—Clear Lake (UHCL). During his tenure at UHCL, he served as associate dean of the College of Science and Engineering for two years and the interim dean for another two years. In that position, he was responsible for six academic departments, 91 faculty, and more than 2,200 students. He worked with faculty to develop new programs, maintain clear communication channels, and conduct a broad-based strategic planning process. Also in collaboration with the faculty, he implemented new recruitment strategies and raised more than $1 million for labs, research, and scholarships.
Prior to UHCL, Dr. Kim served 19 years on the University of North Dakota faculty. As a tenured Professor of Physics, Dr. Kim served as chair of the Department of Physics and Astrophysics from 2011-15. Dr. Kim earned his Ph.D. in Physics at the University of Chicago and his B.A. in Physics and Chemistry from the University of California, San Diego (Revelle College). His research has focused on superconductivity. He has worked closely with students on research, advisement, and doctoral thesis projects and has published multiple texts and research papers. His work has earned him academic awards from both the University of North Dakota and the University of Chicago. Masters and doctoral committee supervision Scott D. Crockett, M.S. student in Physics (graduated in May 2001), University of North Dakota Brian Moritz, Ph.D. student in Physics (graduated in May 2000), University of North DakotaMatthewC. Nitschke, M.S. student in Physics (graduated in May 2005), University of North Dakota Tricia Johnson, M.S. student in Physics (graduated in May 2005), University of North Dakota Jerry Brooks, M.S. student in Physics (graduated in August 2008), University of North Dakota Andy Magness, M.S. student in Physics (graduated in 2010), University of North Dakota Sherry FieberBeyer, Ph.D. student in Earth System Science & Policy (graduated in August 2010), UND Mattew G. Brorby, M.S. student in Physics (graduated in August 2011), University of North Dakota Erandi Gunapala, Ph.D. student in Physics (graduated in August 2011), University of North Dakota Aranwela Hemantha Ph.D. student in Physics (graduated in December 2011), University of North Dakota Eric Serges M.S. student in Chemistry (graduated in December 2011), University of North Dakota Daniel Theis, Ph.D. student in Chemistry (graduated in December 2011), University of North Dakota Eric Serges M.S. student in Chemistry (graduated in December 2011), University of North Dakota Rashel Mokambe, Ph.D. student in Chemistry (graduated in May 2012), University of North Dakota Kailing Zhang, M.S. student in Physics (graduated in December 2012), University of North Dakota Dylan Nicholls, Ph.D. student in Physics (graduated in May 2014), University of North Dakota Patrick Tamukong, Ph.D. student in Chemistry (graduated in August 2014), University of North Dakota Dean Smith, Ph.D. student in Physics (graduated in August 2014), University of North Dakota Brent Thomson, Ph.D. student in Physics (graduated in December 2014), University of North Dakota Mohammed Mahmoud, M.S. student in Computer Science (graduated in May 2015), University of North Dakota Cody Rude, Ph.D. student in Physics (graduated in May 2015), University of North Dakota Rajesh Dhakal, Ph.D. student in Physics (graduated in May 2016) University of North Dakota Jason Hicks, Ph. D. student in Chemistry (graduated in May 2016), University of North Dakota Karki Pragalv, Ph.D. student in Physics (graduation in May 2019), University of North Dakota Madina Sultanova, Ph. D. student in Physics (graduated in August 2018), University of North Dakota
HONORS and AWARDS:
● Faculty Stars Awards (2010), University of North Dakota Faculty Stars Awards (2009), University of North Dakota● Faculty Stars Awards (2008), University of North Dakota● Nominated for Undergraduate Teaching Award (2007), University of North Dakota
● Nominated for Undergraduate Teaching Award (2012), University of North Dakota
● Associate Member of Graduate Faculty (1996), University of North Dakota
● Full Member of Graduate Faculty (1997), University of North Dakota
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● Cowinner of Gregor Wenzel prize for undergraduate teaching (1986), The University of Chicago
PROFESSIONAL SERVICE: Teaching:
●Question leader for College Board AP Physics (2016‐2018)
● Table leader for College Board AP Physics (2012‐2014)
Reader for College Board AP Physics (2007, 2009‐2011)
● Reviewer for college physics textbooks (2008‐2010)
Undergraduate academic advisor (2005‐2015): advised and guided 52 physics majors and minors at University of North Dakota
● MCAT reviewer for premedicine students in UND (2007‐2010, 2012‐2013)
Research:
● Editor for the journal entitled "Topological Order" (2012,2014).
● Reviewer for Physical Review Letters and Physical Review B (1996present).
● Organizing Committee Member for the “48th Annual Midwest Solid State Conference” (October 2000) and Solid‐State Theory Symposium (October 2000)
● Research grant proposal reviewer for Research Seed Money at UND (2005‐2010)
●Grant proposal reviewer for National Science Foundation (2008).
Committee:
● College Tenure and Promotion Committee (2008‐2011), University of North Dakota
● University Faculty Senate (2005), University of North Dakota
● Physics and Astrophysics Colloquium (1999‐2000, 2005‐2006, 2009‐2010), University of North Dakota
● Department Assessment Committee (2007‐2010), University of North Dakota
● Chair of Department Assessment Committee (2010‐2011), University of North Dakota
●Chair of Department Direct Assessment of Teaching Committee (2007‐2008), Univ. of North Dakota
● Department Undergraduate Curriculum Committee (2000‐2002, 2004‐2010), Univ. of North Dakota
● Chair of Department Student Grievance Committee (2005‐2007), University of North Dakota
● Department Graduate Committee Member (2006‐2007, 2008‐2010), University of North Dakota
● Chair, Condensed Matter Theory Search Committee (2008‐2011, 2013), University of North Dakota
● Chair, Condensed Matter Experiment Search Committee (2008‐2011), University of North Dakota
● Department Library Committee (2010‐2011), University of North Dakota
● Department Chair Evaluation Committee (2007, 2009), University of North Dakota
● Shared Governance and Leadership Interest Group (2013), University of North Dakota
● CSE Executive Committee (2015‐Present), University of Houston‐Clear Lake
● CSE Curriculum Committee (2015‐2017), University of Houston‐Clear Lake
● CSE Curriculum Committee (2015‐2017), University of Houston‐Clear Lake
● Core Curriculum Assessment Committee (2015‐2017), University of Houston‐Clear Lake
● UHCL Academic Associate Council (2015‐2017), University of Houston‐Clear Lake
● UHCL Deans Council (2017‐2019), University of Houston‐Clear Lake
● UHCL Academic Council (2017‐2019), University of Houston‐Clear Lake
● UHCL University Council (2017‐2019), University of Houston‐Clear Lake
● UHCL Faculty Senate (2017‐2019), University of Houston‐Clear Lake
● UHCL Senior Leadership (2017‐2019), University of Houston‐Clear Lake
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●UHCL Planning and Budget Committee (Alternate, 2018‐2019), University of Houston‐Clear Lake
●Facilities and Support Service Committee (2017‐2019), University of Houston‐Clear Lake
● Space Allocation and Utilization Subcommittee (2017‐2019), University of Houston‐Clear Lake
● Emergency Planning Committee (2018‐2019), University of Houston‐Clear Lake
●UHCL Strategic Planning and Facilitation Team (2019), University of Houston‐Clear Lake
Miscellaneous:
● Evaluated and written recommendation letters for 20‐25 pre‐medicine and pre‐dental students annually (2008‐2013). ● Judge for Northeast North Dakota Regional Science and Engineering Fair (1997, 2012‐2013)
● Public lecturer on Superconductivity (2012).
● Promoted physics education outreach to local high school students thru an annual Physics Day event (2002, 20042013); 227 students from local high schools participated in 2013.
●Faculty facilitator for the UND Welcome Weekend (2005, 2008).
● Chairs Leadership Cohort (2012, 2013).
● UND Chair Leadership Institute (2014).
● College of Arts & Sciences Council Work Group (2013)
● AP Physics Course Audit Consultant (2013‐Present).
● Bay Area Houston Economic Development, Education & Workforce Develop. Committee (2017‐2019)
RESEARCH INTERESTS:
Superconductivity: Strongly correlated systems Physical properties of superconductors. Terahertz Josephson junction devices Decoherence and entanglement in Josephson vortex quantum bits
Josephson junctions involving two‐ ap superconductors and topological insulators Fractional magnetic vortices and Josephson vortices Quantum magnetism: Exotic magnetic ground states in low dimensional systems
FUNDED GRANT ACTIVITIES:
● NSF ND EPSCoR grant, Interacting electrons in low dimensional conductors in high magnetic fields (May 1997 June 1998, $18,000) ● Faculty Research & Creative Activity grant, Origin of magnetic breakdown in two dimensional organic conductors (December 1998, $2,50) ● North Dakota NSFEPSCoR Small Equipment grant (July 1998, $6,640)
● Research Seed Money grant, High‐Tc superconductors, (June 2000 – June 2001, $25,116)
● Summer Graduate Research Professorship (June – August 2001, $6,000)
● NSF North Dakota EPSCoR grant, Collective Josephson vortex dynamics in high temperature superconductors (June 2002‐April 2003, $37,500)
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● Research Seed Money grant, Long Josephson junction stack as a compact source for coherent teraHertz electromagnetic radiation (June 2003‐December 2004, $29,400)
● NSF ND EPSCoR grant, Entanglement of interacting Josephson vortex quantum bits in the noisy environment (March 2010‐August 2011, $32,952)
● Summer Graduate Research Professorship (June – August 2011, $7,500)
● CoPI on ND DPI grant, Improving Math and Science Literacy of Middle and High School Students of North Dakota Through Teacher‐Faculty Partnerships (October 2006 – September 2009, $1,500,000)
● PI on NSF STEMHSI grant, Building Capacity: Improving STEM Graduation Rates through Engaged Learning (October 2019 – September 2024, $2,499,930)
PAPER PRESENTATIONS:
National/international Paper Presentations
● Fermi liquid description of transport in the copper oxide superconductors, APS March Meeting, St Louis, MO (March 20‐24, 1989)
● Electronphonon interactions in copper oxides, International Conference in Materials and Mechanisms of Superconductivity High Temperature Superconductors, Stanford, CA (July 23‐28, 1989)
● Transport and magnetic properties of almost localized Fermi liquids, Aspen Winter Workshop, Aspen, CO (January 7‐13, 1990)
●Electronphonon contribution to the resistivity in the copper oxides, APS March Meeting, Anaheim, California (March 12‐ 16, 1990)
● Spinless fermions in a magnetic field on a frustrated lattice, APS March Meeting, Anaheim, California (March 12‐16, 1990)
● Electronic and transport properties of almost localized Fermi liquids, Gordon Conference on Superconductivity, Ventura, California (March 19‐23, 1990)
● Spin dynamics in the metallic phase of the copper oxides: comparison with NMR and neutron scattering experiment, APS March Meeting, Anaheim, CA (March 12‐16, 1990)
● The effect of strong Coulomb correlations on electron‐phonon interactions in the copper oxides: implications for transport, First CINVESTAV Symposium on the Manifestations of the Electron‐phonon Interaction in CuO & Related Superconductivity, Oaxtepec, Mexico (December 11‐14, 1990) (Invited)
● Effects of strong Coulomb correlations on electron‐phonon coupling in the high‐Tc superconductors: implications for transport, 1991 APS March Meeting, Cincinnati, OH (March 18‐22, 1991)
● Spinless fermions on frustrated lattice in a magnetic Field, APS March meeting, Cincinnati, OH (March 18‐22, 1991)
● Spin wave damping in the Hubbard antiferromagnet, APS March Meeting, Cincinnati, OH (March 1822, 1991) ● Instability in the doped Hubbard antiferromagnet, APS March Meeting, Cincinnati, OH (March 18‐22, 1991)
● From fermiology to spin dynamics: current status of Fermi liquid based approaches to the cuprates, Workshop on Fermiology of High‐Tc Superconductor, Argonne National Lab, (March 25‐27, 1991)
● Electronic and transport properties of almost localized Fermi liquids, Gordon Conference on Magnetism and Superconductivity, Wolfboro, NH (June 10‐14, 1991)
● dHvA effect in two‐dimensional interacting electron gases, APS March Meeting, Indianapolis, IN (March 19‐23, 1992)
● Role of electronphonon interactions in the Eliashberg equations for strongly correlated systems, APS March Meeting, Indianapolis, IN (March 19‐23, 1992)
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● Is the phonon mechanism for superconductivity possible in strongly correlated systems?, Conference on Lattice Effects in High‐Tc Superconductors, Santa Fe, New Mexico (January 13‐15, 1992)
● Strong Coulomb correlation effects on the electron‐phonon contribution to transport and superconductivity, Conference on Lattice Effects in High‐Tc Superconductors, Santa Fe, NM (January 13‐15, 1992)
● Strong Coulomb correlation and lattice effects on de Haas‐van Alphen oscillations, Conference on Spectroscopies in Novel Superconductors, Santa Fe, NM (March 17‐19, 1993)
● Spin wave interactions in the Hubbard antiferromagnet, APS March Meeting, Pittsburgh, PA (March 21‐25, 1994)
● Effect of temperature dependent spin wave damping in the dimensional Hubbard antiferromagnet, International Conf. on Science & Technology of Synthetic Metals, Seoul, Korea, (July 24‐29, 1994)
● Phonon assisted mechanism for quantum spin relaxation, 1994 APS March Meeting, Pittsburgh, PA (March 21‐25, 1994)
● Effect of finite impurity concentration in magnetic alloys, Workshop on Quantum Impurity Problems, Gainesville, FL (February 24‐26, 1995)
● Effect of finite concentration in Kondo alloys: comment on heavy fermion problem, APS March meeting, San Jose, CA (March 20‐24, 1995)
● Thermodynamics of alloys with magnetic impurities, Conference on Physical Phenomena at High Magnetic Fields II, Tallahassee, FL (May 6‐9, 1995)
● Spin compensation in one dimensional Kondo lattice, APS March Meeting, St. Louis, MO (March 20‐24, 1996)
● Exact solution to the two‐impurity Kondo problem in one dimension, APS March Meeting, St. Louis, MO (March 20‐24, 1996)
● Phenomenological model of anomalous Hall effects in superconductors, APS March Meeting, Kansas City, MO (March 17‐21, 1997)
● The de Haas‐van Alphen effect in quasi‐two dimensional organic metals with magnetic breakdown, APS March Meeting, Kansas City, MO (March 17‐21, 1997)
● Prediction of effective mass in quasi‐two‐dimensional organic conductors with magnetic breakdown, APS March Meeting, Los Angeles, CA (March 16‐20, 1998)
● Realistic Hofstadter energy spectrum and ensemble dependent de Haas‐van Alphen effect in a(ET)2KHg(SCN)4, International Conference on Science and Technology of Synthetic Metals, held in Montpellier, France (July 11‐18, 1998)
● Anomalous temperature dependence of upper critical field in typeII superconductors, Conference on Physical Phenomena at High Magnetic Fields III, Tallahassee, Florida (October 24‐27, 1998)
● Temperature dependence of microwave conductivity for swave superconductors, 1999 APS Centennial Meeting, Atlanta, Georgia (March 20‐26, 1999)
● Can a swave superconductor exhibit the T2 behavior in electronic specific heat?, 1999 APS Centennial Meeting, Atlanta, Georgia (March 20‐26, 1999)
● Ensemble and finite temperature dependence on the magnetic breakdown effect in a‐(ET)2KHg(SCN)4, 1999 APS Centennial Meeting, Atlanta, Georgia (March 20‐26, 1999)
● Unconventional electron‐phonon superconductivity in nickel borocarbides?, Third International conference on New Theories, Discoveries and Applications of Superconductors and Related materials held in Honolulu, Hawaii (January 15 ‐ January 19, 2001), (invited).
● Magnetic breakdown at high magnetic fields: semi‐classical and quantum mechanical treatments, 2000 APS March Meeting, Minneapolis, Minnesota (March 20‐24, 2000)
●Effects of incomplete superconducting condensation on electron tunneling in superconductors, 2000 APS March Meeting, Minneapolis, Minnesota (March 20‐24, 2000)
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● Microwave response of superconductors with uncondensed quasiparticles at low temperatures, Sixth International Conference on Materials and Mechanisms of Superconductivity at High Temperature Superconductors in Houston, Texas (February 20‐25, 2000)
● Effects of incomplete superconducting condensation on electronic thermal conductivity at very low temperatures, 6th International Conference on Materials and Mechanisms of Superconductivity at High Temperature Superconductors, Houston, Texas (February 20‐25, 2000)
● Unusual electronphonon superconductivity in nickel borocarbides?, Third international conference on New Theories, Discoveries and Applications of Superconductors and Related materials held in Honolulu, Hawaii (January 15‐19, 2001), (invited)
● Collective dynamics of stacked Josephson junctions and Josephson‐coupled layered superconductors in parallel magnetic Fields, 2001 APS March Meeting, Seattle, Washington (March 12‐16, 2001)
● Quantum phase transitions in one‐dimensional long Josephson junction stacks in parallel magnetic fields, 2002 APS March Meeting, Indianapolis, Indiana (March 18‐22, 2002)
●Effect of quantum and thermal °Fluctuations on the stability of mutualphase locking in long Josephson junction stacks, 4th l Conference on New Theories, Discoveries, and Applications of Superconductors and Related Materials, San Diego, California (January 16‐21, 2003).
● Effects of incomplete superconducting condensation on electron tunneling, Fourth International Conference on New Theories, Discoveries, and Applications of Superconductors and Related Materials, held in San Diego, California (January 16‐21, 2003) (invited)
● Macroscopic quantum tunneling of phase‐locked fuxons in coupled long Josephson junctions 2004 Korean Physical Society April Meeting, Suwon, Korea
● Decoherence in Josephson vortex quantum bits, Eighth International Conference on Materials and Mechanisms of Superconductivity High Temperature Superconductors, Dresden, Germany (July 9‐14, 2006) (invited)
●Effects of resonant cavity on macroscopic quantum tunneling in long Josephson junction, 2007 APS March Meeting, Denver Colorado (March 5‐9, 2007)
● Fluxon dynamics in long Josephson junction with two‐band superconductor, Physical Phenomena at High Magnetic Fields VII, Tallahassee, Florida (December 4 ‐8, 2010)
● Fluxon dynamics in two‐band superconductor‐based long Josephson junction, APS March Meeting, Dallas, TX (March 21‐25, 2011)
●Dynamics of Josephson vortex interacting with Majorana bound modes in Long Josephson junctions, 2013 APS March Meeting, Baltimore, Maryland (March 18‐24, 2013)
● In‐gap states of Josephson junction with two‐gap superconductors, APS March Meeting, Baltimore, MD (March 18‐24, 2013)
● Fractional Josephson vortices in two‐gap superconductor Long Josephson Junctions, APS March Meeting, Denver, CO (March 3‐7, 2014)
● Fractional vortices in multi‐gap superconductors, APS March Meeting, Denver, CO (March 3‐7, 2014) Recent Regional Paper Presentations
● Dynamics of long Josephson junction with two‐band superconductors, ND EPSCoR 2010 State Conference, Grand Forks, North Dakota (September 29, 2010)
● Equation of motion for non‐linear phase dynamics of two coupled long Josephson junction with twogap superconductors, UND Scholarly Forum, Grand Forks, North Dakota (February 27, 2012)
● Mid‐gap state in two gap superconductor SIS junction, ND EPSCoR State Conference, Grand Forks, North Dakota (September 18, 2012) ● In gap states in twogap superconductor Josephson junctions,UND Scholarly Forum, Grand Forks, North Dakota (March 5, 2013) 10 | Page
LIST OF PUBLICATIONS:
Books: 1. Essential College Physics: Part 1, Ju H. Kim (Linus Learning, Ronkonkoma, 2013) (ISBN: 978‐60797369‐0). 2. Essential College Physics: Part 2, Ju H. Kim (Linus Learning, Ronkonkoma, 2014) (ISBN: 978‐160797‐416‐1). 3. Essential College Physics: Part 3, Ju H. Kim (in preparation for publication in 2019). Refereed Research Journal Papers:
1.The Kondo boson theory of the dynamic susceptibility of heavy fermions, A. Auerbach, J. H. Kim and K. Levin, Physica B140, 50 (1987).
2. Theory of antiferromagnetic correlations and neutron‐scattering cross section in heavy fermion metals, A. Auerbach, J. H. Kim, K. Levin and M. Norman, Phys. Rev. Lett. 60, 623 (1988).
3. Electron phonon interactions in copper oxides, J. H. Kim, K. Levin, R. Wentzcovitch and A. Auerbach, Physica C162‐164, 1463 (1989).
4.Assessment of Fermi liquid description for the normal state of high‐Tc superconductors, J. H. Kim, K. Levin and A. Auerbach, Phys. Rev. B39, 11633 (1989).
5. Electron phonon interactions in the copper oxides: implications for the resistivity, J. H. Kim, K. Levin, R. Wentzcovitch and A. Auerbach, Phys. Rev. B40, 11378 (1989).
6.NMR relaxation and neutron scattering in a Fermi liquid picture of the metallic copper oxides, J. P. Lu, Q. Si, J. H. Kim and K. Levin, Phys. Rev. Lett. 65, 2466 (1990).
7.Phenomenological description of the copper oxides as almost localized Fermi liquids, Q. Si, J. H. Kim, J. P. Lu and K. Levin, Phys. Rev. B42, 1033 (1990).
8.Metallic copper oxides as an almost localized Fermi liquid, J. H. Kim, Q. Si, J. P. Lu and K. Levin, Physica B163, 275 (1990).
9.Spinless fermions on frustrated lattices in a magnetic field, W. Barford and J. H. Kim, Phys. Rev. B43, 559 (1991). 10.From fermiology to spin dynamics: current status of Fermi liquid based approaches to the cuprates, K. Levin, Q. Si, Y. Zha, J. H. Kim and J. P. Lu, J. Phys. Chem. Solids 52, 1337 (1991).
11. The effect of strong coulomb correlations on electron‐phonon interactions in the copper oxides: implications for transport, J. H. Kim, K. Levin, R. Wentzcovitch and A. Auerbach, ElectronPhonon Interaction in Oxide Superconductors, Edited by R. Baquero (World Scientific, Singapore, 1991).
12.Normal state properties in the cuprates and their Fermi liquid based interpretation, K. Levin, J. H. Kim, J. P. Lu, and Q. Si, Physica C175, 449 (1991).
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13. Electron‐phonon interactions in the high temperature superconductors, J. H. Kim, K. Levin, R. Wentzcovitch and A. Auerbach Phys. Rev. B44, 5148 (1991).
14.Microscopic Fermi liquid theory of NMR relaxation and neutron scattering in the metallic copper oxides, J. P. Lu, Q. Si, J. H. Kim and K. Levin, Physica C179, 191 (1991).
15.Current status of Fermi liquid based approaches to the cuprates, K. Levin, Q. Si, J. H. Kim and J. P. Lu, High‐Temperature Superconductivity, Edited by J. Ashkenazi et al. (Plenum Press, NY, 1991).
16.The doped Hubbard antiferromagnet: instability and effective interactions, A. Singh, Z. Tešanović, and J. H. Kim, Phys. Rev. B44, 7757 (1991).
17. Strong coulomb correlation effects on the electron‐phonon contributions to transport and superconductivity, J. H. Kim and K. Levin, Lattice Effects in High‐Tc Superconductors, Edited by Y. Bar‐Yam et al. (World Scientific, Singapore, 1992).
18.Electrons confined on the surface of a sphere in a magnetic field, J. H. Kim, I. D. Vagner and B. Sundaram, Phys. Rev. B46, 9501 (1992).
19.Instability of the spiral state of the doped Hubbard model, A. Singh, Z. Tešanović and J. H. Kim, Pramana‐J. Phys. 38, L211 (1992).
20.Is the phonon mechanism for superconductivity possible in strongly correlated systems?, J. H. Kim and Z. Tešanović, Lattice Effects in HighTc Superconductors, Edited by Y. Bar‐Yam et al. (World Scientific, Singapore, 1992).
21.Strong coulomb correlation and lattice effects on de Haasvan Alphen oscillations, J. H. Kim and I. D. Vagner, J. Phys. Chem. Solids 54, 1269 (1993).
22.Effects of strong coulomb correlations on the phonon mediated superconductivity: a model inspired by copper oxides, J. H. Kim and Z. Tešanović, Phys. Rev. Lett. 71, 4218 (1993).
23. Lattice effects on de Hass van Alphen oscillations in strongly correlated systems, J. H. Kim and I. D. Vagner, Phys. Rev. B48, 16564 (1993).
24.A model for giant magnetoresistance in magnetic granular solids, J. H. Kim, J. Q. Xiao, C. L. Chien, Z. Tešanović and L. Xing, Solid State Commun. 89, 157 (1994).
25.Electronphonon assisted nuclear spin relaxation in two dimensional electron systems, J. H. Kim, I. D. Vagner and L. Xing, Phys. Rev. B49, 16777 (1994).
26.Effects of finite concentration in Kondo alloy systems, L. P. Gor'kov and J. H. Kim, Physica C235240, 2451 (1994).
27.Effects of temperature dependent spin wave damping in the twodimensional Hubbard antiferromagnet, J. H. Kim, Synthetic Metals 71, 1631 (1995).
28.Effect of finite concentration in Kondo alloys: an approach to the heavy fermion, L. P. Gor'kov and J. H. Kim, Phys. Rev. B51, 3971 (1995).
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29.Interplay between the Kondo effect and the RKKY interaction in the two‐impurity model, L. P. Gor'kov and J. H. Kim, Philos. Mag. B74, 447 (1996).
30.Thermodynamics of alloys with magnetic impurities, L. P. Gor'kov and J. H. Kim, Physical Phenomena at High Magnetic Fields II, Edited by Z. Fisk et al. (World Scientific, Singapore, 1996) p. 197.
31.Origin of anomalous magnetic breakdown frequencies in quasi‐two dimensional organic conductors, P. S. Sandhu, J. H. Kim, and J. S. Brooks, Phys. Rev. B56, 11566 (1997).
32.Realistic Hofstadter energy spectrum and ensemble dependent de Haas‐van Alphen effect in
(ET)2KHg(SCN)4, S. Y. Han, J. H. Kim, and J. S. Brooks, Synthetic Metals 101‐103, 2084 (1999).
33.Anomalous temperature dependence of upper critical field in typeII superconductors, J. H. Kim and Z. Tešanović, Physical Phenomena at High Magnetic Fields III, Edited by Z. Fisk et al. (World Scientific, Singapore, 1999) p. 376.
34. Magnetic breakdown phenomenon in quasi‐two dimensional organic conductors: A quantum model inspired by a realistic band structure, J. H. Kim, S. Y. Han, and J. S. Brooks, Phys. Rev. B60, 3213 (1999).
35.Effects of incomplete superconducting condensation in swave superconductors, J. H. Kim, Phys. Rev. B61, 3579 (2000).
36.Effects of incomplete superconducting condensation on electronic thermal conductivity at very low temperatures, J. H. Kim, Physica C341‐348, 1865 (2000).
37. Magnetic breakdown at high magnetic fields: semi‐classical and quantum treatments, S. Y. Han, J. S. Brooks and J. H. Kim, Phys. Rev. Lett. 85, 1500 (2000).
38.Microwave response of superconductors with uncondensed quasiparticles at low temperatures, J. H. Kim and B. L. Nellermoe, Physica C341‐348, 1673 (2000).
39. Unusual electronphonon superconductivity in nickel borocarbides?, J. H. Kim and D. H. Wu, Physica C364‐365, 24 (2001).
40. Collective mode in Josephsoncoupled layered superconductors in weak parallel magnetic fields, J. H. Kim, J. Mod. Phys. B15, 3347 (2001).
41. Quantum phase transitions in onedimensional long Josephson junction stacks in parallel magnetic field, J. H. Kim, Phys. Rev. B65, 100509 (R) (2002).
42.Collective Josephson vortex dynamics in long Josephson junction stacks, J. H. Kim and J. Pokharel, Physica C384, 425 (2003).
43.Effects of quantum and thermal fluctuations on the stability of mutual phase‐locking in long Josephson junction stacks, J. H. Kim, Int. J. Mod. Phys. B17, 3708 (2003).
44.Effects of incomplete superconducting condensation on electron tunneling, J. H. Kim, Int. J. Mod. Phys. B17, 3293 (2003).
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45. Macroscopic quantum tunneling of phased‐locked fluxons in coupled long Josephson junctions, J. H. Kim and Kyungsun Moon, Phys. Rev. B71, 104524 (2005)46.Decoherence in Josephson vortex quantum bits: Long‐Josephson‐junction approach to a two‐state system, J. H. Kim, R. Dhungana and K.‐S. Park, Phys. Rev. B73, 214506 (2006).
47.Decoherence in Josephson vortex quantum bits, J. H. Kim, R. Dhungana and K.‐S. Park, Physica C 460‐462, 339 (2007).
48.Effects of a resonant cavity on macroscopic quantum tunneling of fluxon in long Josephson junctions, J. H. Kim and R. Dhungana, Phys. Rev. B83, 064503 (2011).
49.Fluxon dynamics of long Josephson junction with two‐gap superconductors, J. H. Kim, Bal‐Ram Ghimire, and Hao‐Yu Tsai, Phys. Rev. B85, 134511 (2012).
Manuscript in preparation:
50. Fractional Josephson vortices in two‐gap superconductor long Josephson junctions, J. H. Kim 51. Separation of fractional fluxons in two‐gap superconductor long Josephson junctions, V. E. Mayes, J. H. Kim, and Lawrence A. Rhoads
Research Interest
Physics and Astrophysics