University of Connecticut
2011 - Fellow of the American Association for the Advancement of Science (AAAS)
2003 - Fellow of American Physical Society (APS) Citation For insightful theory of strongly correlated states of matter, particularly unconventional superconductivity and the prediction of impurityinduced quasiparticle bound states
His primary scientific interests are in Condensed matter physics, Superconductivity, Pairing, Quantum mechanics and Impurity. His Condensed matter physics research includes themes of Graphene and Dirac. His Superconductivity research is multidisciplinary, relying on both Bound state, Antiferromagnetism and Amplitude.
His research in Pairing intersects with topics in Doping, Fermi surface, Quantum paraelectricity, Quantum phase transition and Soft modes. His work carried out in the field of Impurity brings together such families of science as Local density of states, Scattering, Scanning tunneling microscope and Electronic structure. His Topological insulator research includes elements of Surface and Density of states.
His primary areas of study are Condensed matter physics, Superconductivity, Quantum mechanics, Pairing and Electron. His Condensed matter physics research incorporates themes from Scattering and Impurity. His Superconductivity research is multidisciplinary, incorporating perspectives in Quantum, Antiferromagnetism and Spin-½.
Alexander V. Balatsky specializes in Quantum mechanics, namely Singlet state. His Electron study frequently draws connections to adjacent fields such as Atomic physics. His work in Quasiparticle tackles topics such as Dirac which are related to areas like Electronic band structure.
Alexander V. Balatsky mainly investigates Condensed matter physics, Dirac, Superconductivity, Quantum mechanics and Electron. The concepts of his Condensed matter physics study are interwoven with issues in Quantum and Ferroelectricity. The various areas that Alexander V. Balatsky examines in his Dirac study include Data mining, Theoretical physics, Quasiparticle, Magnon and Electronic band structure.
His Superconductivity study incorporates themes from Amplitude and Electron pair. Alexander V. Balatsky combines subjects such as Phonon and Phase diagram with his study of Electron. His biological study spans a wide range of topics, including Surface states, Impurity and Topological order.
His scientific interests lie mostly in Condensed matter physics, Dirac, Superconductivity, Topological insulator and Symmetry. His studies deal with areas such as Quantum, Electron and Ferroelectricity as well as Condensed matter physics. His Dirac study which covers Crystal that intersects with Group 2 organometallic chemistry, Database and Density functional theory.
The study incorporates disciplines such as Strontium titanate and Magnetic impurity in addition to Superconductivity. The Topological insulator study combines topics in areas such as Topological entropy in physics, Topological quantum number, Surface states, Dirac fermion and Topological order. His Symmetry research integrates issues from Singlet state, Data mining, Fermi surface and Square lattice.
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Spin current and magnetoelectric effect in noncollinear magnets.
Hosho Katsura;Naoto Nagaosa;Naoto Nagaosa;Alexander V. Balatsky.
Physical Review Letters (2005)
Mott Transition in VO2 Revealed by Infrared Spectroscopy and Nano-Imaging
M. M. Qazilbash;M. Brehm;Byung-Gyu Chae;P.-C. Ho.
Impurity-induced states in conventional and unconventional superconductors
A. V. Balatsky;I. Vekhter;Jian-Xin Zhu.
Reviews of Modern Physics (2006)
T. O. Wehling;A. M. Black-Schaffer;A. V. Balatsky.
arXiv: Materials Science (2014)
Toward a theory of high-temperature superconductivity in the antiferromagnetically correlated cuprate oxides
P. Monthoux;P. Monthoux;A. V. Balatsky;A. V. Balatsky;D. Pines;D. Pines.
Physical Review Letters (1991)
Weak-coupling theory of high-temperature superconductivity in the antiferromagnetically correlated copper oxides
P. Monthoux;A. V. Balatsky;A. V. Balatsky;D. Pines.
Physical Review B (1992)
Interplay of electron–lattice interactions and superconductivity in Bi 2 Sr 2 CaCu 2 O 8+δ
Jinho Lee;K. Fujita;K. Fujita;K. McElroy;K. McElroy;J. A. Slezak.
Superconductivity and quantum criticality in CeCoIn5.
V. A. Sidorov;M. Nicklas;P. G. Pagliuso;J. L. Sarrao.
Physical Review Letters (2002)
Impurity-induced virtual bound states in d-wave superconductors.
AV Balatsky;MI Salkola;A Rosengren.
Physical Review B (1995)
Unconventional superconductivity in PuCoGa5.
N.J. Curro;T. Caldwell;E.D. Bauer;L.A. Morales.
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