Patent Application
 

    1. A.-L. Barabási, B. Jankó, C.S. Lee, I. Derényi,
       ``Reducing vortex densities and transporting vortices in superconductors''
        Patent Application Supported by The University of Notre Dame
 

Journal articles

 
        18. M. Norman, M. Randeria, B. Janko, and J.C. Campuzano,
              "Condensation energy and spectral functions in high-temperature superconductors"
               Physical Review B  61, 14742-14750 (2000)
 

        17. B. Jankó
          ``Thermodynamic Constraints on the Cuprate Magnetic Excitations''
            Submitted to Physical Review Letters

        16.  B. Jankó
        ``Theory of Scanning Tunneling Spectroscopy of Magnetic-Field-Induced
         Discrete Nodal States in a D-Wave Superconductor''
         Physical Review Letters, 82, 4703-4706 (1999).

 
15. C.S. Lee, B. Jankó, I. Derényi, A.-L. Barabási
``Ratchet effect in vortex dynamics: Reducing vortex densities in superconductors''
 Nature, 400, 337-340 (1999).
 

14. B. Jankó, I. Kosztin, K. Levin, M. R. Norman and D. J. Scalapino
``Incoherent pair tunneling as a probe of the cuprate pseudogap regime''
Physical Review Letters, 82, 4304-4307 (1999).
 

13. B. Jankó, I. Kosztin and K. Levin,
``Pseudogap regime in a BCS Bose-Einstein crossover scenario:
Experimental consequences and tests''
Proceedings of the First International Conference on New Theories, Discoveries and
Applications of Superconductors and Related Materials, February 19-24, 1998
International Journal of Modern Physics B, 12 , 3009-3015 (1998).
 

12. Q. Chen, I. Kosztin, B. Jankó, and K. Levin
``Pairing fluctuation theory of superconducting properties in underdoped
to overdoped cuprates''
Physical Review Letters, 81, 4708-4711 (1998).
 

11. I. Kosztin, Q. Chen, B. Jankó, and K. Levin
``Relationship between the pseudo- and superconducting gaps: Effect of residual
pairing correlations below Tc,''
Physical Review B, Rapid Communications 58, R5936-R5939 (1998).
 

10. Q. Chen, I. Kosztin, B. Jankó, and K. Levin
``Superconducting transitions from the pseudogap state: d-wave symmetry, lattice, and low
dimensionality effects''
Physical Review B, 59, 7083-7093 (1999).
 

9. J. Maly, B. Jankó and K. Levin,
``Pairing correlations and the pseudogap state: Application of the
Pairing Approximation theory,''
Physica C, 321, 113-133 (1999).
 

8. J. Maly, B. Jankó and K. Levin,
``Superconductivity from a pseudogapped normal state: a mode coupling approach to
precursor superconductivity,''
Physical Review B, 59, 1354-1357 (1999).
 

7.  J. Maly, B. Jankó and K. Levin,
``The cuprate pseudogap: Precursor superconductivity without preformed pairs'',
Proceedings of the 1997 Conference on Spectroscopies in Novel Superconductors,
September 14-18, 1997, Cape Cod, MA
Journal of Physics and Chemistry of Solids, 59, 1733-1736 (1998).
 

6.  B. Jankó, J. Maly and K. Levin,
``Pseudogap effects induced by resonant pair scattering,''
Physical Review B: Rapid Communications 56, R11 407-R11 410 (1997).
 

5. B. Jankó and V. Ambegaokar,
``Parity fluctuations between Coulomb blockaded superconducting islands,''
Physical Review Letters75, 1154-1157 (1995).
 

4. B. Jankó, A. Smith, V. Ambegaokar,
``BCS superconductivity with fixed number parity,''
Physical Review B 50, 1152-1161 (1993).
 

3. P. Miller, B. Jankó and B. L. Gyorffy,
``On the coexistence of superconductivity and charge density waves,''
Physica C 210, 343-349 (1993).
 

2. Zs. Gulácsi, M. Gulácsi and B. Jankó,
``High order perturbation expansion for the two dimensional Hubbard model
using the Gutzwiller wave function,''
Physical Review B 47, 4168-4173 (1993).
 

1. B. Jankó and J. D. Shore,
``Electromagnetic response of a static vortex line in a type-II superconductor:
a microscopic study,''
Physical Review B: Rapid Communications 46, RC9720-9723 (1992).

10/8/2000