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Next: Teaching Interests Up: Vita of M. Jarrell Previous: Invited Lectures and Seminars

Publications

  1. Linear Transverse Susceptibility of Ising Systems, Mark Jarrell, and E. Loh, Jr., Phys. Rev. B 33 6357-59 (1986).

  2. Superconductivity Due to Negative-U Centers, H. B. Schuttler, M. Jarrell, and D.J. Scalapino, Novel Superconductivity, edited by Stuart A. Wolf and V. Z. Kresin (Plenum Press, NY,1987).

  3. Superconducting $T_c$-Enhancement Due to Local Phonon Impurities, H.B. Schuttler, M. Jarrell, and D. J. Scalapino, J. Low Temp. Phy. 69, 159 (1987).

  4. Superconducting $T_c$-Enhancement Due to Excitonic Negative-U Centers: A Monte Carlo Study, H.B. Schuttler, M. Jarrell, and D. J. Scalapino, Phys. Rev. Lett. 58, 1147-50 (1987).

  5. On Charge Transfer Mechanisms for High Temperature Superconductivity, Mark Jarrell, H. R. Krishnamurthy, and D. L. Cox, Phys. Rev. B 38, 4584 (1988).

  6. The Inhibition of Strong Coupling Superconductivity by Magnetic Impurities: a Quantum Monte Carlo Study, Mark Jarrell, Phys. Rev. Lett. 61, 2612-15 (1988).

  7. Superconducting $T_c$ enhancement due to negative-U impurities: Monte Carlo Study of the Local Exciton Model, H.B. Schuttler, M. Jarrell, and D. J. Scalapino, Phys. Rev. B. 39 6501-13 (1989).

  8. Virtual Electric Quadrupole Fluctuations: A New Mechanism for High $T_c$, D.L. Cox, Mark Jarrell, C. Jayaprakash, H.R. Krishnamurthy, and J. Deisz, Phys. Rev. Lett. 62 2188-91 (1989).

  9. A Phenomenological Model of the Magnetic Properties of Insulating $\rm {La_{2-x} Sr_{x} Cu O_{4-y}}$, Mark Jarrell, D.L. Cox, C. Jayaprakash, and H.R. Krishnamurthy, Phys. Rev. B, 40, 8899-907 (1989).

  10. Magnetic Ordering in $\rm {La_{2} Cu_{1-z} Zn_{z} O_{4-y}}$, A. Chakraborty, A.J.Epstein, M. Jarrell, and E.M. McCarron, Phys. Rev. B, Rapid Comm. 40, 5296-9 (1989).

  11. Universal Reduction of $T_c$ in Strong Coupling Superconductors Due to Finite Concentration of Anderson/Kondo Impurities, Mark Jarrell, Proceeding of Quantum Simulations of Condensed Matter Phenomena Eds. J. Doll, and J. Gubernatis (World Scientific, Singapore, 1990), p145-55.

  12. A Dynamical Approach to Analytic Continuation of Quantum Monte Carlo Data, M. Jarrell and O. Biham, Phys. Rev. Lett. 63 2504-7 (1989).

  13. Universal Reduction of $T_c$ in Strong Coupling Superconductors Due to Anderson/Kondo Impurities, M. Jarrell, Computer Simulation Studies in Condensed Matter Physics: Recent Developments, edited by D.P. Landau, K.K. Mon, and H.B. Schuttler, Springer Proc. Phys. (Springer, Berlin, Heidelberg, 1990) p. 137-49.

  14. The Spectral Function of the Anderson Model: A Quantum Monte Carlo Calculation, O. Biham, M. Jarrell and C. Jayaprakash, Phys. Rev. B, Rapid Comm. 41 p. 2639-42 (Feb. 1990)

  15. Dynamics of the Anderson Model for Dilute Magnetic Alloys: A Quantum Monte Carlo and Maximum Entropy Study, R.N.Silver, J.E.Gubernatis, D.S. Sivia, and Mark Jarrell. Condensed Matter Theories 6, Eds. S. Fantoni and A Fabrocini (Plenum, 1991).

  16. Phonon Renormalization due to disorder and Strong Exchange in the Dilute Magnetic Semiconductor Zn$_{1-x}$Co$_x$Se, C.L. Mak, R. Sooryakumar, M. Jarrell, B.T. Jonker, and G.A. Prinz. Proceedings of the 20th international conference on the Physics of Semiconductors, Aug 6-10, 1990 (Thessaloniki, Greece), Eds. E.M. Anastassakis and J.D. Joannopoulos, (World Scientific, Singapore, 1990), p1815-18.

  17. Applications of MaxEnt to Quantum Monte Carlo, R.N. Silver, D.S. Sivia, J.E. Gubernatis, and Mark Jarrell, in the proceedings of MAXENT 90.

  18. Universal Reduction of $T_c$ in Strong Coupling Superconductors Due to a Finite Concentration of Magnetic Impurities , M. Jarrell, Phys. Rev. B, Rapid Comm. 41 pp4815-4818 (March, 1990).

  19. Spectral Densities of the Symmetric Anderson Model, R.N. Silver, J.E. Gubernatis, D.S. Sivia, and Mark Jarrell, Physical Review Letters 65, p. 496-9 (July 1990).

  20. Gap States in Dilute-Magnetic-Alloy Superconductors: A Quantum Monte Carlo Study, Mark Jarrell, D.S. Sivia, and B. Patton, Phys. Rev. B, Rapid Comm. 42, p. 4804-7 (Sept. 1990).

  21. $S({\bf q},\omega)$ for the S=1/2 and S=1 1-D Heisenberg Antiferromagnet: A Quantum Monte Carlo Study, J. Deisz, M. Jarrell, and D.L. Cox, Phys. Rev. B42, Rapid Comm. 4869-72 (Sept. 1990).

  22. Quadrupolar Fluctuation Model for High $T_c$ Superconductivity: A Quantum Monte Carlo Study, M. Jarrell and D.L. Cox, Phys. Rev. B. 42, 7960-6 (Nov. 1990).

  23. The Transport Coefficients of Dilute Magnetic Alloys: A Quantum Monte Carlo Study, M. Jarrell, J. Gubernatis, R. Silver, and D. Sivia, Phys. Rev. B 43, 1206-9 (Jan. 1991).

  24. The Dynamic Susceptibility of the Anderson Model: A Quantum Monte Carlo Study, M. Jarrell, J.E. Gubernatis, and R.N. Silver. Phys. Rev. B, Rapid Comm. 44, pp5347-5350 (Sept. 1991).

  25. Quantum Monte Carlo and Maximum Entropy: Dynamics from Imaginary Time, J.E. Gubernatis, Mark Jarrell, R.N. Silver, and D.S. Sivia, Phys. Rev. B 44, pp6011-6029 (15 Sept. 1991).

  26. Spin and Charge Dynamics for the One-Dimensional $t-J$ Model, J. Deisz, K.H. Luk, M. Jarrell, D.L. Cox, Phys. Rev. B. 46, pp3410-3419 (1 Aug. 1992).

  27. Low Temperature Dynamics of the 2D Spin-${{1}\over{2}}$ Heisenberg Antiferromagnet: A Quantum Monte Carlo Study, M. Makivic and M. Jarrell, Phys. Rev. Letters 68, pp1770-1773 (March 1992).

  28. Dynamics of Two-Dimensional Quantum Spin Systems, M. Makivic and M. Jarrell, Computer Simulation Studies in Condensed Matter Physics IV, Eds. D. P. Landau, K. K. Mon, and H.-B. Schüttler, Springer Proc. Phys. (Springer, Berlin, Heidelberg, 1992).

  29. Dynamical Properties of the One-Dimensional Antiferromagnets: A Quantum Monte Carlo Study, J. Deisz, M. Jarrell and D.L. Cox, Phys. Rev. B. 48 10227-39 (Oct. 1 1993).

  30. RPA Analysis of Quadrupolar and Magnetic Fluctuation Mediated Superconductivity in a Two-Band Hubbard Model, F. Buda, D.L. Cox, and M. Jarrell, Phys. Rev. B 49, 1255-68 (1 Jan. 1994).

  31. The Hubbard Model in Infinite Dimensions: A Quantum Monte Carlo Study, Mark Jarrell, Phys. Rev. Lett. 69, 168-71 (July 1992).

  32. The Magnetic and Dynamic Properties of the Hubbard Model in Infinite Dimensions, Mark Jarrell and Thomas Pruschke, Z. Phys. B. 90 187-194 (1993).

  33. The Hubbard Model at Infinite Dimensions: Thermodynamic and Transport Properties, Thomas Pruschke, D.L. Cox and Mark Jarrell, Phys. Rev. B. 47, 3553-65 (15 Feb. 1993).

  34. Transport Properties of the Infinite Dimensional Hubbard Model, Thomas Pruschke, D.L. Cox and Mark Jarrell, Europhysics Letters 21, 593-8 (February, 1993).

  35. The Periodic Anderson Model in Infinite Dimensions, Mark Jarrell, Hossein Akhlaghpour, and Thomas Pruschke, Phys. Rev. Lett. 70, 1670-3 (March, 1993).

  36. The Electron-Phonon Problem in Infinite Dimensions, J. K. Freericks, M. Jarrell, and D. J. Scalapino, Europhys. Lett. 25, 37-42 (1, January 1994).

  37. The Holstein Model in Infinite Dimensions, J. K. Freericks, M. Jarrell, and D. J. Scalapino. Phys. Rev. B 48, 6302-14 (1, Sept. 1993).

  38. Anomalous Properties of the Hubbard Model in Infinite Dimensions, M. Jarrell, and Th. Pruschke, Phys. Rev. B 49, p1458-61 (1994).

  39. Dynamic Anomalies and Scaling in the Infinite Dimensional Hubbard Model, Mark Jarrell, and Thomas Pruschke, Computer Simulation Studies in Condensed Matter Physics, VI edited by D.P. Landau, K.K. Mon, and H.B. Schuttler, Springer Proceedings in Physics (Springer, Berlin, Heidelberg, 1993), p61-73.

  40. Transport Properties of the Infinite Dimensional Hubbard Model, Thomas Pruschke and Mark Jarrell, Physica B 199&200, 217-8 (1994).

  41. Quantum Monte Carlo in the Infinite Dimensional Limit, M. Jarrell, H. Akhlaghpour, and Thomas Pruschke, Quantum Monte Carlo Methods in Condensed Matter Physics, Ed. M. Suzuki, (World Scientific, 1993), p221-34.

  42. Thermodynamics of the Quantum Josephson Junction Array: A Hybrid Monte Carlo Study, J. Mikalopas, M. Jarrell, F.J. Pinski, W. Chung, and M. Novotny, Phys. Rev. B. RC 50, 1321-4 (1, July 1994).

  43. Iterated Perturbation Theory for the Attractive Holstein and Hubbard models, J. K. Freericks, and Mark Jarrell, Phys. Rev. B 50, p6939-53 (1, Sept. 1994).

  44. Suppression of Superconductivity by Two-Channel Kondo Impurities, H.-K. Luk, Mark Jarrell, and D.L. Cox, Phys. Rev. B, 50, p15864-74 (1, Dec. 1994).

  45. Simulation of the Electron-Phonon Interaction in Infinite dimensions, by J.K. Freericks and M. Jarrell, in Computer Simulations in Condensed Matter Physics VII, edited by D.P. Landau, K. K. Mon, and H. B. Schuttler (Springer-Verlag, Heidelberg, Berlin, 1994).

  46. Magnetic Phase Diagram of the Hubbard Model, J. K. Freericks, and M. Jarrell, Phys. Rev. Lett. 74, 186-9 (Jan. 1995).

  47. The Symmetric Periodic Anderson Model in Infinite Dimensions, M. Jarrell, Phys. Rev. B. 51, 7429-40 (15, March 1995).

  48. Optical Conductivity of the Infinite-Dimensional Hubbard Model, M. Jarrell, J.K. Freericks, and Th. Pruschke, Phys. Rev. B. 51, pp11704-11711 (1, May 1995).

  49. Bayesian Inference and the Analytic Continuation of Imaginary-Time Quantum Monte Carlo Data, M. Jarrell, and J.E. Gubernatis, Physics Reports Vol. 269 #3, pp133-195, (May, 1996).

  50. Competition Between Electron-Phonon Attraction and Weak Coulomb Repulsion, J.K. Freericks and M. Jarrell, Phys. Rev. Lett. 75, pp2570-2573 (Sept. 1995).

  51. Anomalous Normal-State Properties of High-T$_c$ Superconductors - Intrinsic Properties of Strongly Correlated Electron Systems?, Th. Pruschke, M. Jarrell, and J.K. Freericks, Advances in Physics 44, pp187-210 (March/April 1995).

  52. Ground-State Dynamical Correlation Functions: An Approach from Density Matrix Renormalization Group Method, Hanbin Pang, H. Akhlaghpour, and M. Jarrell, Phys. Rev. B 53, pp5086-5089 (March, 1996).

  53. Cluster Monte Carlo Study of the Quantum XY model in Two Dimensions N.Kawashima, M.Jarrell and J.E.Gubernatis, Int. J. Mod. Phys. C (World Scientific), Vol. 7, pp433-440 (1996).

  54. Spectral Properties and Bandstructure of Correlated Electron Systems, Th. Pruschke, Th. Obermeier, J. Keller, and M. Jarrell, Physica B, V223-224, Iss. 1-4, pp611-615 (1996).

  55. Two-Channel Kondo Lattice: An Incoherent Metal, M. Jarrell, H. Pang, D.L. Cox and K.H. Luk, Phys. Rev. Lett. 77, 1612-15 (1996).

  56. Magnetic Phase Diagram of Hubbard Model in Three Dimensions: the Second-Order Local Approximation, A.N. Tahvildar-Zadeh, J.K. Freericks and M. Jarrell, Phys. Rev. B 55, p942-7 (1997).

  57. An Application of Maximum Entropy Method to Dynamical Correlation Functions at Zero Temperature, Hanbin Pang, H. Akhlaghpour, and M. Jarrell, in Maximum Entropy and Bayesian Methods: Proceedings of the 15th international workshop on Maximum Entropy and Bayesian Methods, edited by K. Hanson and R. Silver (Kluwver Academic, Boston, 1996).

  58. Bayesian Inference and the Analytic Continuation of Imaginary-Time Quantum Monte Carlo Data, J.E. Gubernatis, J. Bonca, and M. Jarrell, in Maximum Entropy and Bayesian Methods: Proceedings of the 15th international workshop on Maximum Entropy and Bayesian Methods, edited by K. Hanson and R. Silver (Kluwver Academic, Boston, 1996) .

  59. The Anharmonic Electron-Phonon Problem, J. K. Freericks, M. Jarrell, and G. D. Mahan, Phys. Rev. Lett., 77, p4588-91 (25 Nov. 1996).

  60. Gap States in Dilute Magnetic Alloy Superconductors, Woonki Chung and Mark Jarrell, Phys. Rev. Lett. 77, 3621-4 (1996).

  61. Protracted Screening in the Periodic Anderson Model, A.N. Tahvildar-Zadeh, M. Jarrell, and J.K. Freericks, Phys. Rev. B 55, R3332-R3335 (1997).

  62. Phase Diagram of the Two-channel Kondo Lattice, M. Jarrell, H. Pang, and D.L. Cox, Phys. Rev. Lett. 78, pp2000-2003, (1997).

  63. The Two Channel Kondo Route to Non-Fermi Liquid Metals, D. L. Cox and M. Jarrell, Journal of Physics Cond.-Matt. 48 pp9825-9853 (1996).

  64. Magneto-resistance in the Two-Channel Kondo Lattice, F.B. Anders, M. Jarrell, and D. L. Cox , Phys. Rev. Lett. 78, p2000-2004, (1997).

  65. Non Fermi Liquid Dynamics of the Two-Channel Kondo Lattice, M. Jarrell, H. Pang, and D.L. Cox, F. Anders, and Amit Chattopadhyay (1996) Physica B 230, 557-562 (1997) (proceedings of International Conference on Strongly Correlated Electron Systems [SCES96], Zurich, Switzerland).

  66. Dynamics of Disordered Heavy Fermion Systems, Amit Chattopadhyay and Mark Jarrell, Phys. Rev. B, 56, R2920 (1997).

  67. ARPES in Strongly Correlated 4f and 5f Systems: Comparison to the Periodic Anderson Model, A.J.Arko, J.J.Joyce, L.E.Cox, L.Morales, J.Sarrao, J.L.Smith, Z.Fisk, A.Menovsky, A.Tahvildar-Zadeh and M.Jarrell, J. Alloys and Comp. 271, 826-830 (1998).

  68. Multi-Orbital Hubbard Model in Infinite Dimensions: Quantum Monte Carlo Calculation, J. E. Han, M. Jarrell, and D. L. Cox, Phys. Rev. B, 58, R4199 (1998).

  69. Low-Temperature Coherence in the Periodic Anderson Model: Predictions for Photoemission of Heavy Fermions, A.Tahvildar-Zadeh, M. Jarrell and J.K. Freericks, Phys. Rev. Lett. 80, pp5168-5171, (1998) .

  70. Superconducting Instability in the Periodic Anderson Model, A.Tahvildar-Zadeh, M. H. Hettler, and M. Jarrell, Phil. Mag. B.,78, 365, (1998).

  71. Photoelectron Spectroscopy in Heavy Fermion Systems: Emphasis on Single Crystals, A.J. Arko, P.S. Riseborough, A.B. Andrews, J.J. Joyce, A.Tahvildar-Zadeh and M.Jarrell Handbook on the Physics and Chemistry of Rare Earths, K.A. Gschneidner, Jr. and LeRoy Eyring, Editors, Volume 26.

  72. Nonlocal Dynamical Correlations of Strongly Interacting Electron Systems, M. H. Hettler, A. N. Tahvildar-Zadeh, M. Jarrell, T. Pruschke, and H. R. Krishnamurthy, Phys. Rev. B 58, ppR7475-R7479 (1998).

  73. Vertex-Corrected Perturbation Theory for the Electron-Phonon Problem with Non-constant Density of States, J. K. Freericks, V. Zlatic, Woonki Chung, and Mark Jarrell, Phys. Rev. B 58, pp11613-11623 (1998).

  74. Exhaustion Physics in the Periodic Anderson Model from Iterated Perturbation Theory, N.S. Nidhyadhiraja, A. N. Tahvildar-Zadeh, M. Jarrell and H. R. Krishna-murthy, EuroPhys. Lett. 49, pp459-465 (FEB 2000).

  75. Evidence for Exhaustion in the Optical Conductivity of the Infinite-Dimensional Periodic Anderson Model, A. N. Tahvildar-Zadeh, M. Jarrell and J.K. Freericks, Phys. Rev. B 60, pp10782-10787 (1999).

  76. The Dynamical Cluster Approximation: Nonlocal Dynamics of Correlated Electron Systems, M. H. Hettler, M. Mukherjee, M. Jarrell, and H.R. Krishnamurthy, Phys. Rev. B 61, pp12739-12756 (2000).

  77. Absence of Hysteresis at the Mott-Hubbard Metal-Insulator Transition in Infinite Dimensions, J. Schlipf, M. Jarrell, P. G. J. van Dongen, N. Blümer, S. Kehrein, Th. Pruschke, and D. Vollhardt, Phys. Rev. Lett. 82, pp.4890-4893 (1999).

  78. A Non-Crossing Approximation for Non-local Correlations , Th. Maier, M. Jarrell, Th. Pruschke and J. Keller, Eur. Phys. J. B 13, pp613-624 (2000).

  79. A Maximum Entropy Method of Obtaining Thermodynamic Properties from Quantum Monte Carlo Simulations, Carey Huscroft, Richard Gass, and Mark Jarrell, Phys. Rev. B 61, pp9300-9306 (2000).

  80. Approximate Scaling Relation for the Anharmonic Electron-Phonon Problem, J. K. Freericks, V. Zlatic, and M. Jarrell, Phys. Rev. B 61, ppR838-R841 (2000).

  81. Exhaustion Physics in Heavy Fermion Systems: A T=0 NRG Study, Th. Pruschke, R. Bulla, and M. Jarrell, Physica B, 281, pp47-49 (June 2000).

  82. Low-Energy Scale of the Periodic Anderson Model, Th. Pruschke, R. Bulla, M. Jarrell, Phys. Rev. B 61, pp12799-12809 (2000).

  83. D-Wave Superconductivity in the Hubbard Model, Th. Maier, M. Jarrell, Th. Pruschke, J. Keller, Phys. Rev. Lett. 85, pp1524-1527 (2000).

  84. The Dynamical Cluster Approximation: A New Technique for Simulations of Strongly Correlated Electron Systems, S. Moukouri, C. Huscroft, and M. Jarrell, to appear in Computer Simulations in Condensed Matter Physics VII, edited by D.P. Landau, K. K. Mon, and H. B. Schuttler (Springer-Verlag, Heidelberg, Berlin, 2000).

  85. C. Huscroft, M. Jarrell, Th. Maier, S. Moukouri, A.N. Tahvildarzadeh, Pseudogaps in the 2D half-filled Hubbard model, Phys. Rev. Lett., 86, pp139-142 (2001).

  86. M. Jarrell and H.R. Krishnamurthy, Systematic and Causal Corrections to the Coherent Potential Approximation, Phys. Rev. B, 63 125102/1-10 (2001).

  87. M. Jarrell, Th. Maier, M. H. Hettler, A.N. Tahvildarzadeh, Phase Diagram of the Hubbard Model: Beyond the Dynamical Mean Field, EuroPhy. Letters, 56 pp563-569 (2001). cond-mat/0011282.

  88. S. Moukouri and M. Jarrell, Absence of a Slater Transition in The Two-Dimensional Hubbard Model, Phys. Rev. Lett. 87, 167010/1-4 (2001), cond-mat/0011247.

  89. M. Jarrell, Th. Maier, C. Huscroft, and S. Moukouri, A Quantum Monte Carlo Algorithm for Non-local Corrections to the Dynamical Mean-Field Approximation, Phys. Rev. B 64, 195130/1-23 (2001).

  90. Th. Maier and M. Jarrell, A Comparison of Two Quantum Cluster Approximations, Phys. Rev. B 65, 041104/1-4 (2002). Erratum. Phys. Rev. B 65, 49904 (2002).

  91. K. Aryanpour, M. H. Hettler and M. Jarrell, Analysis of the Dynamical Cluster Approximation for the Hubbard Model, Phys. Rev. B 65, 153102/1-4 (2002).

  92. Th. A. Maier and M. Jarrell, Zn Impurities in the 2D Hubbard model, Phys. Rev. Lett. 89, 077001/1-4 (2002).

  93. Th. A. Maier, Th. Pruschke, and M. Jarrell, ARPES Spectra of the Hubbard model, Phys. Rev. B 66, 075102/1-8 (2002).

  94. R. Fishman and M. Jarrell, F-Sum Rule for the Spin Conductivity in Itinerant Magnets, J. App. Phys. 91, pp8120-8122 (2002)

  95. Th. A. Maier, O. Gonzalez, M. Jarrell, Th. Schulthess, Two Quantum Cluster Approximations, to be published in proceedings of the XV Workshop on Recent Developments in Computer Simulation Studies in Condensed Matter Physics (Springer Proceedings in Physics), cond-mat/0205460.

  96. Th.A. Maier, M. Jarrell, A. Macridin, F.-C. Zhang, On the Origin of the Pseudogap in Underdoped Cuprates, preprint cond-mat/0208419.

  97. C. Slezak, S. Kehrein, Th. Pruschke, M. Jarrell, Semi-Analytical Solution of the Kondo Model in a Magnetic Field, Phys. Rev. B 67, 184408/1-7 (2003).

  98. Th.A. Maier, M. Jarrell, A. Macridin, and C. Slezak, Kinetic Energy Driven Pairing in the Cuprates, Phys. Rev. Lett. 92, 027005/1-4 (2004).

  99. K. Aryanpour, M. H. Hettler and M. Jarrell, Dynamical Cluster Approximation Employing FLEX as a Cluster Solver, Phys. Rev. B 67, 085101/1-14 (2003).

  100. R. Fishman and M. Jarrell, Electronic Susceptibility and Curie Temperature of the Double-Exchange Model within Dynamical Mean-Field Theory, J. of App. Phys. 93(10) pp.7148-7150. (2003).

  101. T Maier, T Pruschke, M Jarrell Fermi surface and ARPES of CuO2 planes - violation of Luttinger's theorem? , Physica C: Superconductivity 388, 94-95 (2003).

  102. R. Fishman and M. Jarrell, Magnetic Susceptibility of the Double-Exchange Model, Phys. Rev. B 67, 100403/1-4 (2003).

  103. K. Aryanpour, Th. A. Maier and M. Jarrell, The Dynamical Cluster Approximation (DCA) versus the Cellular Dynamical Mean Field Theory (CDMFT) in strongly correlated electrons systems, preprint, cond-mat/0301460.

  104. J.P.Hague, Mark Jarrell, T.C.Schulthess Fluctuation-exchange supplemented quantum Monte Carlo approach to the Hubbard model, Phys. Rev. B 69, 165113/1-8 (2004)

  105. K. Aryanpour, J. Moreno, M. Jarrell, R.S. Fishman Magnetism in semiconductors: A dynamical mean field study of ferromagnetism in Ga$_{1-x}$Mn$_x$As, Phys. Rev. B 72, 045343 (2005).

  106. Alexandru Macridin, George. A. Sawatzky, Mark Jarrell Two-dimensional Hubbard-Holstein bipolaron, Phys. Rev. B 69, 245111/1-13 (2004)

  107. A. Macridin, M. Jarrell, and Th. Maier Absence of the d-density-wave state from the two-dimensional Hubbard model, Phys. Rev. B 70, 113105/1-4 (2004)

  108. Th. Maier, M. Jarrell, Th. Pruschke, and M. Hettler Quantum Cluster Theories, Reviews of Modern Physics, 77, pp. 1027-1080 (2005).

  109. T.A. Maier, J.B. White, M. Jarrell, P. Kent and T.C. Schulthess New insights into high temperature superconductivity from a computational solution of the two-dimensional Hubbard model, J. Phys. Conf. Ser. 16 pp. 257-268

  110. A. Macridin, S. P. Doluweera, M. Jarrell, Th. Maier Analytic continuation of QMC data with a sign problem, Preprint.

  111. A. Macridin, Th. Maier, M. Jarrell, G.A. Sawatzky Physics of cuprates with the two-band Hubbard model - The validity of the one-band Hubbard model, Phys. Rev. B 71, 134527 (2005).

  112. A. Macridin, M. Jarrell, and Th. Maier Phase separation in the Hubbard model using the dynamical cluster approximation, Phys. Rev. B, 74 085104/1-5 (2006).

  113. T.A. Maier, M. Jarrell, T.C. Schulthess, P.R.C. Kent, J.B. White A systematic study of superconductivity in the 2D repulsive Hubbard model, Phys. Rev. Lett. 95, 237001 (2005).

  114. Randy S. Fishman, Juana Moreno, Thomas Maier, Mark Jarrell Thermodynamic Consistency of the Dynamical Mean-Field Theory of the Double-Exchange Model, Phys. Rev. B 71, 180405(R) (2005).

  115. P. R. C. Kent, M. Jarrell, T. A. Maier, Th. Pruschke Efficient calculation of the antiferromagnetic phase diagram of the 3D Hubbard model, Phys. Rev. B 72 060411 (2005).

  116. Juana Moreno, Randy S. Fishman, and Mark Jarrell Transition Temperature of a Magnetic Semiconductor with Angular Momentum j, Phys. Rev. Lett. 96, 237204 (2006).

  117. T. A. Maier, M. S. Jarrell, and D. J. Scalapino Structure of the Pairing Interaction in the Two-Dimensional Hubbard Model , Phys. Rev. Lett. 96, 047005 (2006).

  118. R. Fishman, J. Moreno, and M. Jarrell Generalized double-exchange model for magnetic semiconductors with angular momentum j, Journal of Magnetism and Magnetic Materials 300, p53-56, (2006).

  119. Alexandru Macridin, Mark Jarrell, Thomas Maier, P. R. C. Kent, Eduardo D'Azevedo Pseudogap and antiferromagnetic correlations in the Hubbard model, Phys. Rev. Lett. 97 036401/1-4 (2006) .

  120. M.A. Majidi, J. Moreno, M. Jarrell, R.S. Fishman, K. Aryanpour Dynamics of Impurity and Valence Bands in GaMnAs within the Dynamical Mean Field Approximation, Phys. Rev. B. 74, 115205 (2006).

  121. C. Slezak, A. Macridin, G. A. Sawatzky, M. Jarrell, T. A. Maier, Spectral Properties of Holstein and Breathing Polarons, Phys. Rev. B 73, 205122 (2006).

  122. Cao BQ, Porollo A, Adamczak R, Jarrell M, Meller J, Title: Enhanced recognition of protein transmembrane domains with prediction-based structural profiles, Bioinformatics 2006 22(3):303-309.

  123. Alexandru Macridin, Brian Moritz, Mark Jarrell, Thomas Maier Synergistic Polaron Formation in the Hubbard-Holstein Model at Small Doping, Phys. Rev. Lett. 97, 056402/1-4 (2006).

  124. C. Slezak, M. Jarrell, Th. Maier, J. Deisz Multi-scale Extensions to Quantum Cluster Methods for Strongly Correlated Electron Systems, JOURNAL OF PHYSICS-CONDENSED MATTER, 21, 435604.

  125. R.S. Fishman, F. Popescu, G. Alvarez, J. Moreno, Th. Maier, M. Jarrell Magnetic Instabilities and Phase Diagram of the Double-Exchange Model in Infinite Dimensions, New J. Phys. 8 116-144.

  126. T.A. Maier, M. Jarrell, D.J. Scalapino Structure of the Pairing Interaction in the 2D Hubbard Model, Phys. Rev. Lett. 96, 047005 (2006) .

  127. T.A. Maier, M. Jarrell, D.J. Scalapino Understanding High-Temperature Superconductors with Quantum Cluster Theories, Physica C, v. 460-462, p.13-19.

  128. Alexandru Macridin, Brian Moritz, M. Jarrell, Thomas Maier Suppression of superconductivity in the Hubbard model by buckling and breathing phonons. , JOURNAL OF PHYSICS-CONDENSED MATTER 24, 475603

  129. Th. Maier, M. Jarrell, and D.J. Scalapino Spin Susceptibility Representation of the Pairing Interaction for the two-dimensional Hubbard Model , Phys. Rev. B 75, 134519 (2007)

  130. A. Macridin, M. Jarrell, Th. Maier, and D.J. Scalapino High energy kink in the single particle spectra of the two-dimensional Hubbard model , Physical Review Letters, 99, id. 237001 (2007).

  131. T.A. Maier, A. Macridin, M. Jarrell, D.J. Scalapino Systematic analysis of a spin-susceptibility representation of the pairing interaction in the 2D Hubbard model , Phys. Rev. B 76, 144516 (2007) .

  132. M.A. Majidi, D.G.S.P. Doluweera, B. Moritz, P.R.C. Kent, J. Moreno, M. Jarrell Charge Density Wave Driven Ferromagnetism in the Periodic Anderson Model , arXiv:0710.5937.

  133. Alexandru Macridin, Mark Jarrell The isotope effect in the Hubbard model with local phonons, arXiv:0803.0567. Phys. Rev. B 79, 104517 (2009)

  134. Alexandru Macridin, Mark Jarrell Bond excitations in the pseudogap phase of the Hubbard Model , arXiv:0806.0815. Phys. Rev. B 78, 241101(R) (2008)

  135. D. G. S. P. Doluweera, A. Macridin, T. A. Maier, M. Jarrell, Th. Pruschke Suppression of d-wave superconductivity in the checkerboard Hubbard model , Phys. Rev. B 78, 020504 (2008) arXiv:0806.1504.

  136. P. R. C. Kent, T. Saha-Dasgupta, O. Jepsen, O. K. Andersen, A. Macridin, T. A. Maier, M. Jarrell, T. C. Schulthess Combined density-functional and dynamical cluster quantum Monte Carlo calculations for three-band Hubbard models for hole-doped cuprate superconductors , arXiv:0806.3770. Physical Review B 78 035132 (2008)

  137. E. Khatami, A. Macridin, M. Jarrell Effect of long-range hopping on Tc in a two-dimensional Hubbard-Holstein model of the cuprates , arXiv:0806.3996. Phys. Rev. B 78, 060502(R) (2008).

  138. A.F. Kemper, D.G.S.P. Doluweera, T.A. Maier, M. Jarrell, P.J. Hirschfeld, H-P. Cheng Insensitivity of superconductivity to disorder in the cuprates , Phys. Rev. B 79, 104502 (2009), arXiv:0807.0195.

  139. N.S.Vidhyadhiraja, A.Macridin, C.Sen, M.Jarrell, Michael Ma Quantum Critical Point at Finite Doping in the 2D Hubbard Model: A Dynamical Cluster Quantum Monte Carlo Study , Phys. Rev. Lett., 102, 206407, (2009) .

  140. E. Khatami, A. Macridin, M. Jarrell The validity of the spin-susceptibility "glue" approximation for pairing in a two-dimensional Hubbard model , Phys. Rev. B, 80, 172505 (2009).

  141. Karlis Mikelsons, Alexandru Macridin, Mark Jarrell The relationship between Hirsch-Fye and weak coupling diagrammatic Quantum Monte Carlo methods , Phys. Rev. E 79, 057701 (2009), arXiv:0903.0559.

  142. C. N. Varney, C.-R. Lee, Z. J. Bai, S. Chiesa, M. Jarrell, R. T. Scalettar High Precision Quantum Monte Carlo Study of the 2D Fermion Hubbard Model , Phys. Rev. B 80, 075116 (2009), arXiv:0903.2519.

  143. E. Khatami, C. R. Lee, Z. J. Bai, R. T. Scalettar, M. Jarrell Dynamical Mean Field Theory Cluster Solver with Linear Scaling in Inverse Temperature , Phys. Rev. B, 81, 201101 (2010), arXiv:0904.1239.

  144. S. X. Yang, H. Fotso, J. Liu, T. A. Maier, K. Tomko, E. F. D'Azevedo, R. T. Scalettar, T. Pruschke, M. Jarrell Parquet approximation for the 4x4 Hubbard cluster , Phys. Rev. E, 80, 046706, (2009).

  145. K. Mikelsons, E. Khatami, D. Galanakis, A. Macridin, J. Moreno, M. Jarrell Thermodynamics of the Quantum Critical Point at Finite Doping in the 2D Hubbard Model: A Dynamical Cluster Approximation Study , Phys. Rev. B, 80, 140505 (2009).

  146. A. K. McMahan, R. T. Scalettar, M. Jarrell The screening of 4f moments and delocalization in the compressed light rare earths , Phys. Rev. B, 80, 235105 (2009).

  147. E. Khatami, K. Mikelsons, D. Galanakis, A. Macridin, J. Moreno, R. T. Scalettar, M. Jarrell Quantum Criticality Due to Incipient Phase Separation in the Two-dimensional Hubbard Model , Phys. Rev. B, 81, 201101 (2010).

  148. V.G. Rousseau, G.G. Batrouni, D.E. Sheehy, J. Moreno, M. Jarrell Pure Mott phases in confined ultra-cold atomic systems , Phys. Rev. Lett., 104, 051604 (2010).

  149. M. Raczkowski, P. Zhang, F. F. Assaad, T. Pruschke, M. Jarrell Phonons and the coherence scale of models of heavy fermions , Phys. Rev. B, 81, 054444 (2010).

  150. Dimitrios Galanakis, Shuxiang Yang, Fakher Assaad, Mark Jarrell, Philip Werner, Matthias Troyer Comment on ``Exact bosonization for an interacting Fermi gas in arbitrary dimensions'' , Phys. Rev. Lett. 105, 159701 (2010).

  151. Shi-Quan Su, Daniel E. Sheehy, Juana Moreno, Mark Jarrell Dynamical Cluster Quantum Monte Carlo Study of the Single Particle Spectra of Strongly Interacting Fermion Gases , Phys. Rev. A, 81, 051604 (2010), arXiv:arXiv:0912.3476.

  152. S. Fuchs, T. Pruschke, M. Jarrell Analytic Continuation of Quantum Monte Carlo Data by Stochastic Analytical Inference , Phys. Rev. E, 81, 056701, (2010), arXiv:arXiv:0912.5204.

  153. A. Dirks , P. Werner P, M. Jarrell, T. Pruschke T Continuous-time quantum Monte Carlo and maximum entropy approach to an imaginary-time formulation of strongly correlated steady-state transport , PHYSICAL REVIEW E 82, 026701 (2010).

  154. Unjong Yu, Abdol-Madjid Nili, Karlis Mikelsons, Brian Moritz, Juana Moreno, Mark Jarrell Nonlocal effects on magnetism in the diluted magnetic semiconductor Ga$_{1-x}$Mn$_{x}$As , Phys. Rev. Lett., 104, 037201 (2010), arXiv:arXiv:1001.1716.

  155. Philip Phillips and Mark Jarrell, Comment on X-ray Absorption Spectra Reveal the Inapplicability of the Single-Band Hubbard Model to Overdoped Cuprate Superconductors , PHYSICAL REVIEW LETTERS, 105, 199701 (2010).

  156. S.-X. Yang, H. Fotso, S.-Q. Su, D. Galanakis, E. Khatami, J.-H. She, J. Moreno, J. Zaanen, and M. Jarrell Proximity of the Superconducting Dome and the Quantum Critical Point in the Two-Dimensional Hubbard Model , Phys. Rev. Lett. 106, 047004 (2011).

  157. D. Galanakis and E. Khatami and K. Mikelsons and A. Macridin and J. Moreno and D. A. Browne and M. Jarrell Quantum Criticality and Incipient Phase Separation in the Thermodynamic Properties of the Hubbard Model , Philosophical Transactions of the Royal Society, 369, 1670 (2011).

  158. V.G. Rousseau and K. Hettiarachchilage and M. Jarrell and J. Moreno Using off-diagonal confinement as a cooling method , PHYSICAL REVIEW A 82, 063631 (2010) .

  159. Zhaoxin Xu, Simone Chiesa, Shuxiang Yang, Shi-Quan Su, Daniel E. Sheehy, Juana Moreno, Richard T. Scalettar, and Mark Jarrell Response to dynamical modulation of the optical lattice for fermions in the Hubbard model , Phys. Rev. A 84, 021607(R) (2011)

  160. Fuchs, Sebastian and Gull, Emanuel and Troyer, Matthias and Jarrell, Mark and Pruschke, Thomas Spectral properties of the three-dimensional Hubbard model , Phys. Rev. B, 83, 235113, (2011).

  161. S.-X. Yang, H. Fotso, H. Hafermann, K.-M. Tam, J. Moreno, T. Pruschke, and M. Jarrell Dual fermion dynamical cluster approach for strongly correlated systems , Phys. Rev. B 84, 155106 (2011)

  162. K.-S. Chen, S. Pathak, S.-X. Yang, S.-Q. Su, D. Galanakis, K. Mikelsons, M. Jarrell, and J. Moreno Role of the van Hove singularity in the quantum criticality of the Hubbard model , Phys. Rev. B 84, 245107 (2011)

  163. Chinedu E. Ekuma, David J. Singh, J. Moreno, and M. Jarrell Optical properties of PbTe and PbSe , Phys. Rev. B 85, 085205 (2012).

  164. Chinedu E. Ekuma, Mark Jarrell, Juana Moreno, and Diola Bagayoko First principle electronic, structural, elastic, and optical properties of strontium titanate , AIP Advances 2, 012189 (2012)

  165. Ka-Ming Tam, H. Fotso, S.-X. Yang, Tae-Woo Lee, J. Moreno, J. Ramanujam, M. Jarrell Solving the Parquet Equations for the Hubbard Model beyond Weak Coupling , Phys. Rev. E 87, 013311 arXiv:1108.4926

  166. Andreas Dirks, Jong E. Han, Mark Jarrell, Thomas Pruschke Imaginary-time quantum many-body theory out of equilibrium II: Analytic continuation of dynamic observables and transport properties , arXiv:1205.1817

  167. Chinedu E. Ekuma, Chia-Hui Lin, Juana Moreno, Wei Ku,and Mark Jarrell Wannier function analysis of electronic structure of PdTe: Weaker magnetism and superconductivity compared to FeSe , preprint arXiv:1210.4512

  168. J. Li, C. E. Ekuma, I. Vekhter, M. Jarrell, J. Moreno, S. Stadler, and R. Jin Physical Properties of Ba$_2$Mn$_2$Sb$_2$O Single Crystals , Phys. Rev. B 86, 195142

  169. V.G. Rousseau, Ka-Ming Tam, M. Jarrell, and J. Moreno The Boson-Hubbard Model on a Kagome Lattice with Sextic Ring-Exchange Terms , Phys. Rev. B 87, 075146

  170. Kuang-Shing Chen, Zi Yang Meng, Thomas Pruschke, Juana Moreno, Mark Jarrell Lifshitz transition in the two-dimensional Hubbard model , Phys. Rev. B 86, 165136

  171. C. E. Ekuma, M. Jarrell, J. Moreno, L. Franklin, G. L. Zhao, J. T. Wang, D. Bagayoko First principle local density approximation description of the electronic properties of ferroelectric sodium nitrite , MATERIALS CHEMISTRY AND PHYSICS, 136, 1137-1142

  172. C. E. Ekuma, D. Bagayoko, M. Jarrell, J. Moreno Electronic, structural, and elastic properties of metal nitrides XN (X = Sc, Y): A first principle study , AIP Advances 2, 032163 (2012)

  173. Peng Zhang, Peter Reis, Ka-Ming Tam, Mark Jarrell, Juana Moreno, Fakher Assaad, Andy McMahan Periodic Anderson model with electron-phonon correlated conduction band , Phys. Rev. B 87, 121102

  174. H. Terletska, S.-X. Yang, Z. Y. Meng, J. Moreno, M. Jarrell Dual Fermion Method for Disordered Electronic Systems , Phys. Rev. B 87, 134208 (2013).

  175. Kalani Hettiarachchilage, Valery G. Rousseau, Ka-Ming Tam, Mark Jarrell, Juana Moreno Phase diagram of the Bose-Hubbard model on a ring-shaped lattice with tunable weak links , Phys. Rev. A, 87, 051607.

  176. Kalani Hettiarachchilage, Valery G. Rousseau, Ka-Ming Tam, Mark Jarrell, Juana Moreno Complex phases in the doped two-species bosonic Hubbard Model , Phys. Rev. B 88, 161101(R) (2013).

  177. Oliver Bodensiek, Rok Zitko, Matthias Vojta, Mark Jarrell, Thomas Pruschke Unconventional Superconductivity from Local Spin Fluctuations in the Kondo Lattice , Phys. Rev. Lett. 110, 146406.

  178. C. E. Ekuma, M. Jarrell, J. Moreno, G. L. Zhao, D. Bagayoko Re-examining the electronic structure of germanium: A first-principle study , Physics Letters A, Volume 377, Pages 2172-2176, arXiv:1302.3396

  179. T. Ying, G.G. Batrouni, V.G. Rousseau, M. Jarrell, J. Moreno, X.D. Sun, R.T. Scalettar Phase Stability in the Two dimensional Anisotropic Boson Hubbard Hamiltonian , Phys. Rev. B 87, 195142, arXiv:1303.0465

  180. Kuang Shing Chen, Zi Yang Meng, Unjong Yu, Shuxiang Yang, Mark Jarrell, Juana Moreno Unconventional superconductivity on the triangular lattice Hubbard model , Phys. Rev. B 88, 041103(R) (2013).

  181. S.-X. Yang, H. Terletska, Z. Y. Meng, J. Moreno, M. Jarrell Mean-field embedding of the dual fermion approach for correlated electron systems , Phys. Rev. E 88, 063306 (2013), arXiv:1305.0207.

  182. CE Ekuma, J Moreno, M Jarrell Electronic, transport, optical, and structural properties of rocksalt CdO , Journal of Applied Physics 114 (15), 153705 (2013)

  183. C. E. Ekuma, V. I. Anisimov, J. Moreno, M. Jarrell Electronic Structure and Spectra of CuO , The European Physical Journal B 87:23 (2014), arXiv:1305.6283.

  184. Chinedu E. Ekuma, Hanna Terletska, Zi Yang Meng, Juana Moreno, Mark Jarrell, Samiyeh Mahmoudian, Vladimir Dobrosavljevic Effective Cluster Typical Medium Theory for Diagonal Anderson Disorder Model in One- and Two-Dimensions , J. Phys.: Condens. Matter 26 (2014) 274209, arXiv:1306.5712

  185. Kuang-Shing Chen, Zi Yang Meng, Shu-Xiang Yang, Thomas Pruschke, Juana Moreno, Mark Jarrell Evolution of the Superconductivity Dome in the two dimensional Hubbard Model , Phys. Rev. B 88, 245110 (2013), arXiv:1308.5946.

  186. S.-X. Yang, P. Haase, H. Terletska, Z. Y. Meng, T. Pruschke, J. Moreno, M. Jarrell Dual-fermion approach to interacting disordered fermion systems , Phys. Rev. B 89, 195116, arXiv:1310.6762

  187. Sheng Feng, Ye Fang, Ka-Ming Tam, Zhifeng Yun, J. Ramanujam, Juana Moreno, Mark Jarrell Three Dimensional Edwards-Anderson Spin Glass Model in an External Field , arXiv:1403.4560

  188. C. E. Ekuma, H. Terletska, K.-M. Tam, Z.-Y. Meng, J. Moreno, M. Jarrell A Typical Medium Dynamical Cluster Approximation for the Study of Anderson Localization in Three Dimensions , Phys. Rev. B 89, 081107(R) (2014)

  189. Ye Fang, Sheng Feng, Ka-Ming Tam, Zhifeng Yun, Juana Moreno, J. Ramanujam, Mark Jarrell Parallel Tempering Simulation of the three-dimensional Edwards-Anderson Model with Compact Asynchronous Multispin Coding on GPU , COMPUTER PHYSICS COMMUNICATIONS Volume: 185 Issue: 10 Pages: 2467-2478 , arXiv:1311.5582

  190. Kalani Hettiarachchilage, Valéry G. Rousseau, Ka-Ming Tam, Mark Jarrell, Juana Moreno Ferromagnetic phase in the polarized two-species bosonic Hubbard Model , arXiv:1405.4849

  191. H. Terletska, C. E. Ekuma, C. Moore, K.-M. Tam, J. Moreno, M. Jarrell Study of off-diagonal disorder using the typical medium dynamical cluster approximation , arXiv:1406.1235

  192. Kiran Bhaskaran-Nair, Karol Kowalski, Juana Moreno, M. Jarrell, W.A. Shelton Equation of motion coupled cluster methods for electron attachment and ionization potential in fullerenes C-60 and C-70 , JOURNAL OF CHEMICAL PHYSICS Volume: 141 Issue: 7 Article Number: 074304


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Mark Jarrell 2014-09-19