[333] Jianhao Sun, Tao Ying, Richard T. Scalettar, and Rubem Mondaini, Stripes and the Emergence of Charge $\pi$-phase Shifts in Isotropically Paired Systems, arXiv:2402.17305.
[332] Eduardo Ibarra-Garcia-Padilla, Stephanie Striegel, Richard T. Scalettar, and Ehsan Khatami, Structural complexity of snapshots of 2D Fermi-Hubbard systems arXiv:2312.15618.
[331] Benjamin Cohen-Stead, Sohan Malkaruge Costa, James Neuhaus, Andy Tanjaroon Ly, Yutan Zhang, Richard Scalettar, Kipton Barros, Steven Johnston, SmoQyDQMC.jl: A flexible implementation of determinant quantum Monte Carlo for Hubbard and electron-phonon interactions, arXiv:2311.09395.
[330] Steven Johnston, Ehsan Khatami, and Richard Scalettar A perspective on machine learning and data science for strongly correlated electron problems Carbon Trends 9, 100231 (2022).
[329] Giulio Pasqualetti, Oscar Bettermann, Nelson Darkwah Oppong, Eduardo Ibarra-Garcia-Padilla, Sohail Dasgupta, Richard T. Scalettar, Kaden R. A. Hazzard, Immanuel Bloch, and Simon Foelling Equation of State and Thermometry of the 2D SU(N) Fermi-Hubbard Model Phys. Rev. Lett. 132, 083401 (2024), Editor's suggestion.
[328] Bo Xing, Chunhan Feng, Richard Scalettar, George Batrouni, and Dario Poletti, Attractive Su-Schrieffer-Heeger-Hubbard model on a square lattice away from half-filling Phys. Rev. B108, L161103 (2023).
[327] C. Kvande, C. Feng, F. Hebert, G.G. Batrouni, and R.T. Scalettar, Enhancement of charge density wave correlations in a Holstein model with an anharmonic phonon potential, Phys. Rev. B108, 075119 (2023).
[326] Sohail Dasgupta, Chunhan Feng, Bryce Gadway, Richard T. Scalettar, and Kaden R. A. Hazzard, Finite-Temperature Quantum Matter with Rydberg or Molecule Synthetic Dimensions submitted to Physical Review B.
[325] Chunhan Feng, Eduardo Ibarra-Garc\'ia-Padilla, Kaden R. A. Hazzard Richard Scalettar, Shiwei Zhang, and Ettore Vitali, Metal-insulator transition and quantum magnetism in the SU(3) Fermi- Hubbard Model: Disentangling Nesting and the Mott Transition Phys. Rev. Res. 5, 043267 (2023).
[324] Eduardo Ibarra-Garcia-Padilla, Chunhan Feng, Giulio Pasqualetti, Simon Foelling, Richard T. Scalettar, Ehsan Khatami, and Kaden R. A. Hazzard, Metal-insulator transition and magnetism of SU(3) fermions in the square lattice, Phys. Rev. A108, 053312 (2023).
[323] Wiliam S. Oliveira, Thereza Paiva, Richard T. Scalettar, and Natanael C. Costa, Magnetism and singlet phases in the three-dimensional periodic Anderson Model, Phys. Rev. B108, 115121 (2023).
[322] Muqing Xu, Lev Haldar Kendrick, Anant Kale, Youqi Gang, Geoffrey Ji, Richard T. Scalettar, Martin Lebrat, and Markus Greiner, Doping a frustrated Fermi-Hubbard magnet, Nature 620, 971 (2023).
[321] Max Cohen, Max Casebolt, Yutan Zhang, Kaden R. A. Hazzard, and Richard Scalettar, Classical Analog of Quantum Models in Synthetic Dimensions, Phys. Rev. A109, 013303 (2023), Editor's Suggestion.
[320] Owen Bradley, Benjamin Cohen-Stead, Steven Johnston, Kipton Barros, and Richard T. Scalettar, Charge order in the kagome lattice Holstein model: A Hybrid Monte Carlo study, Nature Physics Journal s41535-023-00553-y (2023).
[319] Bo Xiao, Javier Robledo Moreno, Matthew Fishman, Dries Sels, Ehsan Khatami, and Richard Scalettar. Extracting Off-Diagonal Order from Diagonal Basis Measurements, submitted to Physical Review Letters.
[318] Benjamin Cohen-Stead, Kipton Barros, Richard Scalettar, and Steve Johnston. A hybrid {Monte Carlo} study of bond-stretching electron-phonon interactions and charge order in the bismuthate family of superconductors, Nature Physics Journals, Computational Materials 9, 40 (2023).
[317] Benjamin Cohen-Stead, Owen Bradley, Cole Miles, George Batrouni, Richard Scalettar, and Kipton Barros, Rubem Mondaini, Sabyasachi Tarat, and Richard Scalettar, Fast and Scalable Hybrid Quantum Monte Carlo Simulations of Electron-Phonon Models, Phys. Rev. E105, 065302 (2022).
[316] Yuxi Zhang, Rubem Mondaini, and Richard Scalettar, Photoinduced enhancement of superconductivity in the plaquette Hubbard model, Phys. Rev. B107, 064309 (2023).
[315] Chunhan Feng, Hannah Manetsch, Valery G. Rousseau, Kaden R. A. Hazzard, and Richard Scalettar, Quantum Membrane phases in a Synthetic lattice of Cold Molecules, Phys. Rev. A105, 063320 (2022).
[314] Jesse Patton, Victoria A. Norman, Richard T. Scalettar, and Marina Radulaski, All-Photonic Quantum Simulators Based On Coupled Cavity Arrays With Integrated Ensembles Of Spectrally Disordered Emitters, submitted to Phys. Rev. A.
[313] Cole Miles, Benjamin Cohen-Stead, Owen Bradley, Steven Johnston, Richard Scalettar, and Kipton Barros, Dynamical tuning of the chemical potential to achieve a target particle number in grand canonical, Phys. Rev. E105, 045311 (2022).
[312] Eli Baum, Amelia Broman, Trevor Clarke, Natanael C. Costa, Jack Mucciaccio, Alexander Yue, Yuxi Zhang, Victoria Norman, Jesse Patton, Marina Radulaski, and Richard T. Scalettar, Effect of Emitters on Quantum State Transfer in Coupled Cavity Arrays, Phys. Rev. B105, 195429 (2022).
[311] Tian-Cheng Yi, R.T. Scalettar, and Rubem Mondaini, Hamming distance and the onset of Quantum Criticality, Phys. Rev. B106, 205113 (2022).
[310] Tao Ying, Rubem Mondaini, and R.T. Scalettar, pi phase shift across stripes in a charge density wave system, Phys. Rev. B105, 115116 (2022).
[309] Yuxi Zhang, Chunhan Feng, Rubem Mondaini, George Batrouni, and R.T. Scalettar, Charge Singlets and Orbital Selective Charge Density Wave Transitions, Phys. Rev. B106, 115120 (2022).
[308] Yingping Mou, R. Mondaini, and R.T. Scalettar, The bilayer Hubbard model: analysis based on the fermionic sign problem, Phys. Rev. B106, 125116 (2022).
[307] R. Mondaini, S. Tarat, and R.T. Scalettar, Universality and Critical Exponents of the Fermion Sign Problem, Phys. Rev. B107, 245144 (2023).
[306] Chunhan Feng, Bo Xing, Dario Poletti, Richard Scalettar, and George Batrouni, Phase Diagram of the Su-Schrieffer-Heeger-Hubbard model on a square lattice, Phys. Rev. B106, L081114 (2022).
[305] Eduardo Ibarra-Garc'ia-Padilla, Sohail Dasgupta, Hao-Tian Wei, Shintaro Taie, Yoshiro Takahashi, Richard T. Scalettar, and Kaden R. A. Hazzard, Universal thermodynamics of an SU($N$) Fermi-Hubbard Model, Phys. Rev. A104, 043316, editor's suggestion (2021).
[304] Sabyasachi Tarat, Bo Xiao, Rubem Mondaini, and Richard Scalettar, Deconvolving the Components of the Sign Problem, Phys. Rev. B105, 045107 (2022).
[303] Rubem Mondaini, Sabyasachi Tarat, and Richard Scalettar, Quantum Critical Points and the Sign Problem, Science 375, 418 (2022).
[302] Kaouther Essalah, Ali Benali, Anas Abdelwahab, Eric Jeckelmann, and Richard T. Scalettar, Magnetic properties of alternating Hubbard ladders. Phys. Rev. B103, 165127 (2021).
[301] G. Paleari, F. H\'ebert, B. Cohen-Stead, K. Barros, R.T. Scalettar, and G. Batrouni, Quantum Monte Carlo study of an anharmonic Holstein model, Phys. Rev. B103, 195117 (2021).
[300] Owen Bradley, George G. Batrouni, and Richard T. Scalettar, Superconductivity and charge density wave order in the 2D Holstein model, Phys. Rev. B103, 235104 (2021).
[299] Josef Kaufmann, Klaus Steiner, Richard T. Scalettar, Karsten Held, and Oleg Janson, Magnetic structure factor in the metallic regime of the Kagome Hubbard model, Phys. Rev. B104, 165127 (2021).
[298] Shintaro Taie, Eduardo Ibarra-Garcia-Padilla, Naoki Nishizawa, Yosuke Takasu, Yoshihito Kuno, Hao-Tian Wei, Richard T. Scalettar, Kaden R. A. Hazzard, and Yoshiro Takahashi, Observation of antiferromagnetic correlations in an ultracold SU(N) Hubbard model, Nature Physics 18, 1356 (2022).
[297] C. Feng and R.T. Scalettar, Interplay of Flat Electronic Bands with Holstein Phonons, Phys. Rev. B102, 235152 (2020).
[296] Yiqun Huang, Huaiming Guo, Joseph Maciejko, Richard T. Scalettar, and Shiping Feng, Antiferromagnetic transitions of Dirac fermions in three dimensions, Phys. Rev. B102, 155152 (2020).
[295] Eduardo Ibarra-Garcia-Padilla, Rick Mukherjee, Randall G. Hulet, Kaden R. A. Hazzard, Thereza Paiva, Richard T. Scalettar, Thermodynamics and magnetism in the 2D-3D crossover of the Hubbard model, Phys. Rev. A102, 033340 (2020).
[294] Sabyasachi Tarat, Jian Li, Richard T. Scalettar, and Rubem Mondaini, Magnetoresistance effects in a spin-fermion model for multilayers, Phys. Rev. B102, 094423 (2020).
[293] Bo Xing, Wei-ting Chiu, Dario Poletti, Richard T. Scalettar, and George G. Batrouni, Quantum Monte Carlo Simulations of the 2D Su-Schrieffer-Heeger Model, Phys. Rev. Lett. 126, 017601 (2021).
[292] B. Cohen-Stead, Kipton Barros, Zi Yang Meng, Chuang Chen, and R.T Scalettar, Langevin Simulations of the Half-Filled Cubic Holstein Model, Phys. Rev. B102, 161108(R) (2020).
[291] Wei-ting Chiu, Roxanne M. Tutchton, Giacomo Resta, Tsung-Han Lee, Eric D. Bauer, Filip Ronning, Richard T. Scalettar, and Jian-Xin Zhu, Hybridization effect on the X-ray absorption spectra for actinide materials: Application to PuB_4 Phys. Rev. B102, 085150 (2020).
[290] Ehsan Khatami, Elmer Guardado-Sanshez, Benjamin M. Spar, Juan Felipe Carrasquilla, Waseem S. Bakr, and Richard T. Scalettar, Visualizing strange metallic correlations in the two-dimensional Fermi-Hubbard model with artificial intelligence, Phys. Rev. A102, 033326 (2020).
[289] Yuxi Zhang, Huaiming Guo, and R.T. Scalettar, Charge-Density Wave Order on a pi-flux Square Lattice, Phys. Rev. B101, 205139 (2020).
[288] L. Oliveira-Lima, N.C. Costa, J. Pimentel de Lima, R.T. Scalettar, and R.R. dos Santos Dynamical resilience to disorder: the dilute Hubbard model} the Lieb lattice, Phys. Rev. B101, 165109 (2020).
[287] B. Xiao, N.C. Costa, E. Khatami, G.G. Batrouni, and R.T. Scalettar, Charge Density Wave and Superconductivity in the Disordered Holstein Model, Phys. Rev. B103, L060501 (2021).
[286] C. Feng, H.M. Guo, and R.T. Scalettar, Charge Density Waves on a half-filled Decorated Honeycomb Lattice, Phys. Rev. B101, 205103 (2020).
[285] X. Zhu, S. Dong, Y. Lin, R. Mondaini, H. Guo, S. Feng, and R.T. Scalettar, Self-Organized Bosonic Domain Walls, Phys. Rev. R2, 013085 (2020).
[284] B. Cohen-Stead, N.C. Costa, E. Khatami, and R.T. Scalettar, Effect of Strain on Charge Density Wave Order in the Holstein Model, Phys. Rev. B100, 045125 (2019).
[283] Lufeng Zhang, Tianxing Ma, Natanael C. Costa, Raimundo R. dos Santos, and Richard T. Scalettar, Determinant Quantum Monte Carlo Study of Exhaustion in the Periodic Anderson Model, Phys. Rev. B99, 195147 (2019).
[282] Bo Xiao, F. H\'ebert, G. Batrouni, and R.T. Scalettar, "Competition between Phase Separation and Spin Density Wave or Charge Density Wave Order: The Role of Long Range Interaction", Phys. Rev. B99, 205145 (2019).
[281] Owen Bradley, Chunhan Feng, Richard T. Scalettar and Rajiv R. P. Singh, "How Robust are Entropy Plateaus? A case study of triangular Ising antiferromagnets," Phys. Rev. B100, 064414 (2019).
[280] F. Hebert, Bo Xiao, V.G. Rousseau, R.T. Scalettar, and G.G. Batrouni, "One-dimensional Hubbard-Holstein model with finite range electron-phonon coupling", Phys. Rev. B99, 075108 (2019).
[279] N.C. Costa, T. Mendes-Santos, T. Paiva, N.J. Curro, R.R. dos Santos, and R.T. Scalettar, "The Coherence Temperature in the Diluted Periodic Anderson Model," Phys. Rev. B99, 195116 (2019).
[278] Y.X. Zhang, W.T. Chiu, N.C. Costa, G.G. Batrouni, and R.T. Scalettar, "Charge Order in the Holstein Model on a Honeycomb Lattice", Phys. Rev. Lett. 122, 077602 (2019).
[277] G. G. Batrouni and Richard T. Scalettar "Quantum Monte Carlo with the Langevin Equation: Coupled Bose-Fermi Systems," Comm. Comp. Phys. 1290, 012004 (2019).
[276] G. G. Batrouni and Richard T. Scalettar, "Langevin Simulations of a Long Range Electron Phonon Model," Phys. Rev. B99, 035114 (2019).
[275] John Ferre, J. Amin Barzegar, Helmut Katzgraber, and Richard Scalettar, "Distribution of inter-event avalanche times in disordered and frustrated spin systems," Phys. Rev. B99, 024411 (2019).
[274] Huaiming Guo, Xingchuan Zhu, Shiping Feng, and Richard T. Scalettar, "Pairing symmetry of interacting fermions on twisted bilayer graphene superlattice," Phys. Rev. B97, 235453 (2017).
[273] Chuang Chen, Xiao Yan Xu, Junwei Liu, George Batrouni, Richard Scalettar and Zi Yang Meng, "Symmetry Enforced Self-Learning Monte Carlo Method Applied to the Holstein Model," Phys. Rev. B98, 041102, rapid communication (2018).
[272] N.C. Costa, T. Blommel, W.-T. Chiu, G.G. Batrouni, and R.T. Scalettar, "Phonon dispersion and the competition between pairing and charge order", Phys. Rev. Lett. 120, 187003 (2018).
[271] N.C. Costa, M.V.M. Araujo, J.P. Lima, T. Paiva, R.R. dos Santos, and R.T. Scalettar, "Compressible Ferrimagnetism in the depleted Periodic Anderson Model," Phys. Rev. B97, 085123 (2017).
[270] H.-M. Guo, Lei Wang, and R.T. Scalettar, "Quantum phase transitions of multi-species Dirac fermions," lattice", Phys. Rev. B97, 235152 (2018).
[269] G.G. Batrouni and R.T. Scalettar, "Interaction-Induced Gradients Across a Confined Fermion Lattice," Phys. Rev. A96, 033632 (2017).
[268] W.-T. Chiu, D.R. Mortensen, M.J. Lipp, G. Resta, C.J. Jia, B. Moritz, T.P. Devereaux, S.Y. Savrasov, G.T. Seidler, and R.T. Scalettar, "Pressure Effects on the 4f Electronic Structure of Light Lanthanides," Phys. Rev. Lett. 122, 066401 (2019).
[267] Natanael C. Costa, Wenjian Hu, Z.J. Bai, Richard T. Scalettar, and Rajiv R.P. Singh, "Principal component analysis for fermionic critical points," Phys. Rev. B96, 195138 (2017).
[266] Huaiming Guo, Ehsan Khatami, Yao Wang, T.P. Devereaux, R.R.P. Singh, and R.T. Scalettar, "Unconventional pairing symmetry of interacting Dirac fermions on a pi-flux lattice," Phys. Rev. B97, 155146 (2018).
[265] W. Hu, R.R.P. Singh, and R.T. Scalettar, "Discovering Phases, Phase Transitions and Crossovers through Unsupervised Machine Learning: A critical examination," Phys. Rev. E95, 062122 (2017).
[264] W. Hu, R.T. Scalettar, E.W. Huang, and B. Moritz, "Effect of an Additional Conduction Band on Singlet-Antiferromagnet Competition in the Periodic Anderson Model," Phys. Rev. B95, 235122 (2017).
[263] "Localization of Interacting Dirac Fermions" Phys. Rev. Lett. 120, 116601 (2018).
[262] H.-M. Guo, T. Mendes-Santos, W.E. Pickett, and R.T. Scalettar, "Magnetic order-disorder transitions on a (1/3)-depleted square lattice", Phys. Rev. B95, 045131 (2017).
[261] T. Cary, R.R.P. Singh and R.T. Scalettar, "Metropolis Monte Carlo and Wang-Landau Simulations of Tricriticality in Crossed Ising Chains", Phys. Rev. E96, 042108 (2017).
[260] N.C. Costa, T. Mendes-Santos, T. Paiva, R.R. dos Santos, and R.T. Scalettar, "Ferromagnetism beyond Lieb's theorem," Phys. Rev. B94, 155107 (2016).
[259] T. Mendes, N. Costa, G. Batrouni, N. Curro, R.R. dos Sandos, T. Paiva, and R.T. Scalettar, "Impurities near an Antiferromagnetic-Singlet Quantum Critical Point", Phys. Rev. B95, 054419 (2017).
[258] A.~Benali, Z.J.~Bai, N.J.~Curro, and R.T.~Scalettar. "Impurity-Induced Antiferromagnetic Domains in the Periodic Anderson Model", Phys. Rev. B94, 085132 (2016).
[257] N. Hartman, W.-T. Chiu, and R.T. Scalettar, "Magnetic Correlations in a Periodic Anderson Model with Non-Uniform Conduction Electron Coordination", Phys. Rev. B93, 235143 (2016).
[256] P.T. Dumitrescu, M. Serbyn, R.T. Scalettar, and A. Vishwanath, "Superconductivity and Nematic Fluctuations in a model of FeSe monolayers: A Determinant Quantum Monte Carlo Study", Phys. Rev. B94, 155127 (2016).
[255] C. Jiang, Z. Bai, and R.T. Scalettar, "A Fast Selected Inversion Algorithm for Green's Function Calculations in Many-body Quantum Monte Carlo Simulations," Proceedings of the 30th IEEE International Parallel and Distributed Processing Symposium,
[254] Y.F. Kung, C.-C. Chen, Yao Wang, E.W. Huang, E.A. Nowadnick, B. Moritz, R.T. Scalettar, S. Johnston, and T.P. Devereaux, "Characterizing the three-orbital Hubbard model with determinant quantum Monte Carlo" Phys. Rev. B93, 155166 (2016); Editor's Suggestion.
[253] T. Paiva, E. Khatami, S. Yang, V. Rousseau, M. Jarrell, J. Moreno, R.G. Hulet, and R.T. Scalettar, "Cooling Atomic Gases With Disorder," Phys. Rev. Lett. 115, 240402 (2015).
[252] Wenjian Hu, R.T. Scalettar, and R.R.P. Singh, "Interplay of Magnetic Order, Pairing and Phase Separation in a One Dimensional Spin Fermion Model", Phys. Rev. B92, 115133 (2015).
[251] Y.F. Kung, E.A. Nowadnick, C.J. Jia, B. Moritz, R.T. Scalettar, and T.P. Devereaux, "Doping evolution of spin and charge excitations in the Hubbard model", Phys. Rev. B92, 195108 (2015).
[250] Y-L. Loh, M. Randeria, N. Trivedi, C-C. Chang, and R. Scalettar, "Superconductor-Insulator Transition and Fermi-Bose Crossovers", Phys. Rev. X6, 021029 (2016)
[249] Chia-Chen Chang, Valery G. Rousseau, Richard T. Scalettar, and George G. Batrouni, "Competing exotic quantum phases of spin-1/2 ultra-cold lattice bosons with extended spin interactions", Phys. Rev. B92, 054506 (2015).
[248] E. Khatami, R.T. Scalettar, and R.R.P. Singh, "Finite-temperature superconducting correlations of the Hubbard model", Phys. Rev. B91, 241107 (2015).
[247] V.I. Iglovikov, E. Khatami, R.M. Fye, and R.T. Scalettar, "Geometry Dependence of the Sign Problem", Phys. Rev. B92, 045110 (2015).
[246] T. Flottat, F. Hebert, V.G. Rousseau, R.T. Scalettar, and G.G. Batrouni, "Bosonic Kondo-Hubbard model," Phys. Rev. B92, 035101 (2015).
[245] P.M. Duarte, R.A. Hart, T-L. Yang, X. Liu, T. Paiva, E. Khatami, R.T. Scalettar, N. Trivedi, and R.G. Hulet, "Compressibility of a fermionic Mott insulator of ultracold atoms", Phys. Rev. Lett. 114, 070403 (2015).
[244] R. Mondaini, T. Paiva, and R.T. Scalettar, "Magnetic and metal-insulator transitions in coupled spin-fermion systems," Phys. Rev. B90, 144418 (2014).
[243] G.G. Batrouni, V.G. Rousseau, R.T. Scalettar, and B. Gremaud, "Competing phases, phase separation and co-existence in the extended one-dimensional bosonic Hubbard model", Phys. Rev. B90, 205123 (2014).
[242] R.A. Hart, P.M. Duarte, T. Yang, X. Liu, T. Paiva, E. Khatami, R.T. Scalettar, N. Trivedi, D.A. Huse and R.G. Hulet, "Observation of antiferromagnetic correlations in the Hubbard model with ultracold atoms", Nature 519, 211 (2015).
[241] Chia-Chen Chang, Rajiv R. P. Singh, and Richard T. Scalettar, "Entanglement properties of the antiferromagnetic-singlet transition in the Hubbard model on bilayer square lattices," Phys. Rev. B90, 155113 (2014).
[240] S. Gogolenko, Z. Bai and R. Scalettar, "Structured Orthogonal Inversion of Block p-Cyclic Matrices on Multicores with GPU Accelerators", Lecture Notes in Computer Science, F. Silva, I. Dutra and V. Santos Costa, eds. 8632, 524 (2014).
[239] V.I. Iglovikov, F. Hebert, B. Gremaud, G.G. Batrouni, and R.T. Scalettar, "Superconducting Transitions in Flat Band Systems", Phys. Rev. B90, 094506 (2014).
[238] Ehsan Khatami, Rajiv R.P. Singh, Warren E. Pickett, and Richard T. Scalettar, "Magnetic Correlations and pairing in the 1/5-depleted square lattice Hubbard model" Phys. Rev. Lett. 113, 106402 (2014).
[237] M. Jiang, N.J. Curro, and R.T. Scalettar, "Universal Knight shift anomaly in the Periodic Anderson model" Phys. Rev. B90, 241109 (2014).
[236] T. Ying, G.G. Batrouni, G.X. Tang, X.D. Sun, and R.T. Scalettar, "Charge Gaps at Fractional Fillings in Boson Hubbard Ladders" Phys. Rev. B89, 195128 (2014).
[235] T. Ying, R. Mondaini, X.D. Sun, T. Paiva, and R.T. Scalettar, "Determinant Quantum Monte Carlo Study of $d$-wave pairing in the Plaquette Hubbard Hamiltonian" Phys. Rev. B90, 075121 (2014)
[234] C-C. Chang and R.T. Scalettar E.V. Gorelik, and N. Bluemer, "Discriminating antiferromagnetic signatures in ultracold fermions by tunable geometric frustration" Phys. Rev. B88, 195121 (2013).
[233] A. Euverte, S. Chiesa, R.T. Scalettar, and G.G. Batrouni, "Finite f-Electron Bandwidth in a Heavy Fermion Model" Phys. Rev. B88, 235123 (2013).
[232] C.C. Chang, S. Gogolenko, J. Perez, Z. Bai, and R.T.~Scalettar, "Recent Advances in Determinant Quantum Monte Carlo" Philosophical Magazine B DOI:10.1080/14786435.2013.845314.
[231] G.G. Batrouni, R.T. Scalettar, V.G. Rousseau, and B. Gremaud, "Competing Supersolid and Haldane Insulating phases in the extended one-dimensional bosonic Hubbard model" Phys. Rev. Lett. 110, 265303 (2013).
[230] T. Ying, G.G. Batrouni, V.G. Rousseau, M. Jarrell, J. Moreno, X.D. Sun, and R.T. Scalettar, "Phase Stability in the Two dimensional Anisotropic Boson Hubbard Hamiltonian" Phys. Rev. B87, 195142 (2013).
[229] F.Hebert, Zi Cai, V.G. Rousseau, Congjun Wu, R.T. Scalettar, and G.G. Batrouni, "Exotic phases of $P$-band bosons in interaction" Phys. Rev. B87, 224505 (2013).
[228] V.I. Iglovikov, R.T. Scalettar, R.R.P. Singh, and J. Oitmaa, "Disorder Line and Incommensurate Floating Phases in the Quantum Ising Model on an Anisotropic Triangular Lattice" Phys. Rev. B87, 214415 (2013).
[227] S. Johnston, E.A. Nowadnick, Y.F. Kung, B. Moritz, R.T. Scalettar, and T.P. Devereaux, "Determinant quantum Monte Carlo studies of the two-dimensional single-band Hubbard-Holstein model" Phys. Rev. B87, 235133 (2013).
[226] M. Jiang, W.E. Pickett, and R.T. Scalettar, "Effects of Strong Interactions in a Half Metallic Magnet: a Determinant Quantum Monte Carlo Study" Phys. Rev. B87, 165101 (2013).
[225] A. Euverte, S. Chiesa, R.T. Scalettar, and G.G. Batrouni "Magnetic Transition in a correlated band insulator" Phys. Rev. B87, 125141 (2013).
[224] E.A.~Nowadnick, S.~Johnston, B.~Moritz, R.T.~Scalettar, and T.P.~Devereaux "Competition between antiferromagnetic and charge density wave order in the half filled Hubbard-Holstein model" Phys. Rev. Lett. 109, 246404 (2012).
[223] M. Jiang, G.G. Batrouni, and R.T. Scalettar "Density of States and Magnetic Correlations at a Metal-Mott Insulator Interface" Phys. Rev. B86, 195117 (2012).
[222] R. Mondaini, T. Ying, T. Paiva, S. Chiesa, and R.T. Scalettar "Quantum Monte Carlo Study of the Enhancement of d-wave Pairing by Charge Inhomogeneity" Phys. Rev. B86, 184506 (2012)
[221] A. Zujev, R.T. Scalettar, G.G. Batrouni and P. Sengupta "Pairing Correlations in the two-layer attractive Hubbard Model" New Journal of Physics 16, 013004 (2014).
[220] M.J. Wolak, B. Gremaud, R.T. Scalettar, and G.G. Batrouni "Pairing in a two-dimensional Fermi gas with population imbalance" Phys. Rev. A86, 023630 (2012).
[219] Chia-Chen Chang and R.T. Scalettar "Quantum disordered phase near the Mott transition in the staggered-flux Hubbard model on a square lattice" Phys. Rev. Lett. 109, 026404 (2012).
[218] A. Tomas, C.-C. Chang, R.T. Scalettar, and Z. Bai "Advancing Large Scale Many-Body QMC Simulations on GPU accelerated Multicore Systems" 26th IEEE International Parallel & Distributed Processing Symposium
[217] J.D. Cone, S. Chiesa, V.R. Rousseau, G.G. Batrouni, and R.T. Scalettar "Optimized Confinement of Fermions in Two Dimensions" Phys. Rev. B85, 075418 (2012).
[216] M. Jiang, R. Nanguneri, N. Trivedi, G.G. Batrouni, and R.T. Scalettar "Novel gapless superfluid phase with spin-dependent disorder" New Journal of Physics 15, 023023 (2013).
[215] R. Nanguneri, M. Jiang, T. Cary, G.G. Batrouni, and R.T. Scalettar "Interplay of Superconductivity and Spin-Dependent Disorder" Phys. Rev. B85, 134506 (2012).
[214] E. Assmann, S. Chiesa, G.G. Batrouni, H.G. Evertz, and R.T. Scalettar, "Superconductivity and charge order of confined Fermi systems", Phys. Rev. B85, 014509 (2012), appeared as `Editor's Suggestion'.
[213] A. Euverte, F. Hebert, G.G. Batrouni, S. Chiesa, and R.T. Scalettar, "Kondo Screening and Magnetism at Interfaces", Phys. Rev. Lett. 108, 246401 (2012).
[212] E. V. Gorelik, T. Paiva, R. Scalettar, A. Kluemper, and N. Bluemer, "Double occupancy as a universal probe for antiferromagnetic correlations and entropy in cold fermions on optical lattices," Phys. Rev. A85, 061602 (2012).
[211] K.R.A. Hazzard, Richard T. Scalettar, and A. Rey, "Universality class of quantum criticality in the two-dimensional Hubbard model at intermediate temperature," Phys. Rev. B87, 035110 (2013).
[210] T. Paiva, Yen Lee Loh, N. Trivedi, M. Randeria and R.T. Scalettar, "Fermions in 3D Optical Lattices: Cooling Protocol to Obtain Antiferromagnetism", Phys. Rev. Lett. 107, 086401 (2011)
[209] L. de Forges de Parny, F. Hebert, V.G. Rousseau, R.T. Scalettar and G.G. Batrouni, "Ground state phase diagram of spin-1/2 bosons in a two-dimensional optical lattice", Phys. Rev. B84, 064529 (2011).
[208] Andres Tomas, Che-Rung Lee, Zhaojun Bai, and Richard Scalettar, "Optimizing Higher-Level Matrix Algorithms on a GPU Accelerated Multicore to Enable Many-Body QMC Simulations," unpublished
[207] Z. Xu, S. Chiesa, S. Yang, S-Q. Su, D.E. Sheehy, J. Moreno, R.T. Scalettar, and M. Jarrell, "The response to dynamical modulation of the optical lattice for fermions in the Hubbard model", Phys. Rev. A84, 021607 (2011).
[206] K.W. Mahmud, E.N. Duchon, Y. Kato, N. Kawashima, R.T. Scalettar and N. Trivedi, "Finite temperature study of bosons in a two dimensional optical lattice", Phys. Rev. B84, 054302 (2011).
[205] J.D. Cone, A. Zujev and R.T. Scalettar, Isentropic Curves at Magnetic Phase Transitions," Phys. Rev. B83, 045108 (2011).
[204] Brianna S. Dillon, Simone Chiesa, and Richard T. Scalettar, "Monte Carlo Study of the Two-Dimensional Vector Blume Capel Model", Phys. Rev. B82, 184412 (2010).
[203] L. de Forges de Parny, M. Traynard, F. Hebert, V.G. Rousseau, R.T. Scalettar, and G.G. Batrouni, "Phase diagram of spin-$1/2$ bosons in one-dimensional optical lattice", Phys. Rev. A82, 063602 (2010).
[202] F. Hebert, M. Schram, R.T. Scalettar, W.B. Chen, and Z. Bai, Eur. Phys. J. B79, 465 (2011). "Hatano-Nelson model with a periodic potential,"
[201.] M. J. Wolak, V. G. Rousseau, C. Miniatura, B. Gremaud, R. T. Scalettar, and G. G. Batrouni, "Finite temperature QMC study of the one-dimensional polarized Fermi gas", Phys. Rev. A82, 013614 (2010).
[200.] S. Chiesa, R.T. Scalettar, Thereza Paiva, P.J.H. Denteneer, and S. Story, "Numerical Studies of Metal-Insulator Transitions in Disordered Hubbard Models", in "Conductor-Insulator Quantum Phase Transitions", edited by V. Dobrosavljevic, N. Trivedi, and J. Valles; Oxford University Press.
[199.] Simone Chiesa, Richard T. Scalettar, Christopher N. Varney and Marcos Rigol, "Magnetism and pairing of two-dimensional trapped fermions", Phys. Rev. Lett. 106, 035301 (2011).
[198.] R.T. Scalettar and G.G. Batrouni, "Quantum Monte Carlo Studies of the Attractive Hubbard Hamiltonian", in Understanding Quantum Phase Transitions, ed. Lincoln D. Carr (CRC Press / Taylor&Francis, 2010, to appear).
[197.] Zhaojun Bai, Wenbin Chen, Richard Scalettar and Ichitaro Yamazaki, "Numerical Methods for Quantum Monte Carlo Simulations of the Hubbard Model," Zhaojun Bai, Wenbin Chen, Richard Scalettar and Ichitaro Yamazaki, in ``Multi-Scale Phenomena in Complex Fluids'' edited by Thomas Y. Hou, Chun Liu and Jian-Guo Liu, pp. 1-110, Higher Education Press (2009).
[196.] K.W. Mahmud, G.G. Batrouni, and R. T. Scalettar, "Isentropes of spin-1 bosons in an optical lattice," Phys. Rev. A81, 033609 (2010).
[195.] K.L. Lee, K. Bouadim, G.G. Batrouni, F. Hebert, B-G. Englert, R.T. Scalettar, C. Miniatura, and B. Gremaud, "Attractive Hubbard Model on a Honeycomb Lattice," Phys. Rev. B80, 245118 (2009).
[194.] I. Yamazaki, Z. Bai, W. Chen, and R. Scalettar, "A High Quality Preconditioning Technique for Multi-Length-Scale Symmetric Positive Definite Linear Systems", Numerical Mathematics: Theory, Methods and Applications 2, 469 (2009).
[193.] E. Khatami, K. Mikelsons, D. Galanakis, A. Macridin, J. Moreno, R.T. Scalettar, and M. Jarrell, "Quantum Criticality Due to Incipient Phase Separation in the 2D Hubbard Model," Phys. Rev. B81, 201101 (2010)
[192.] A.K. McMahan, R.T. Scalettar, and M. Jarrell, "The screening of $4f$ moments and delocalization in the compressed light rare earths," Phys. Rev. B80, 235105 (2009).
[191.] R.T. Scalettar and G.G. Batrouni, "Quantum Monte Carlo Studies of the Attractive Hubbard Hamiltonian," ``Perspectives on Quantum Phase Transitions", CRC Press, Taylor and Francis Group, Lincoln D. Carr (editor), to appear.
[190.] S. X. Yang, H. Fotso, J. Liu, T. A. Maier, K. Tomko, E. F. D'Azevedo, R. T. Scalettar, T. Pruschke, and M. Jarrell, "Parquet approximation for the 4x4 Hubbard cluster," Phys. Rev. E80, 046706 (2009).
[189.] T. Paiva, R.T. Scalettar, M. Randeria, and N. Trivedi, "Fermions in 2D Optical Lattices: Constraints on entropy for observing antiferromagnetism and superfluidity," Phys. Rev. Lett. 104, 066406 (2010).
[188.] E. Khatami, C.R. Lee, Z.J. Bai, R.T. Scalettar, and M. Jarrell, "Dynamical Mean Field Theory Cluster Solver with Linear Scaling in Inverse Temperature," Phys. Rev. E81, 056703 (2009)
[187.] C.N. Varney, C.R.~Lee, Z.J. Bai, S. Chiesa, M. Jarrell, and R. T. Scalettar, "High Precision Quantum Monte Carlo Study of the 2D Fermion Hubbard Model at Half-Filling", Phys. Rev. B80, 075116 (2009).
[186.] K. Bouadim, G.G. Batrouni, and R.T. Scalettar, "Determinant Quantum Monte Carlo Study of the Orbitally Selective Mott Transition," Phys. Rev. Lett. 102, 226402 (2009).
[185.] Marcos Rigol, George G. Batrouni, Valery G.~Rousseau, and Richard T. Scalettar, "Universal state diagrams for harmonically trapped bosons in optical lattices," Phys. Rev. A79, 053605 (2009).
[184.] G.G. Batrouni, V.G. Rousseau, and R.T. Scalettar, "Magnetic and Superfluid Transitions in the d=1 Spin-1 Boson Hubbard Model," Phys. Rev. Lett. 102, 140402 (2009).
[183.] S.M. Pittman, G.G. Batrouni, and R.T. Scalettar, "Monte Carlo Study of an Inhomogeneous Blume-Capel Model," Phys. Rev. B78, 214208 (2008).
[182.] F. Mondaini, T. Paiva, R.R. dos Santos, and R.T. Scalettar, "Disordered Superconductors: roles of temperature and interaction strength," Phys. Rev. B78, 174519 (2008).
[181.] Simone Chiesa, Prabuddha B. Chakraborty, Warren E. Pickett, and Richard T. Scalettar, "Disorder-induced stabilization of the pseudogap in strongly correlated systems," Phys. Rev. Lett. 101, 086401 (2008).
[180.] B. Moritz, F. Schmitt, W.. Meevasana, S. Johnston, E.M. Motoyama, M. Greven, D.H. Lu, C. Kim, R.T. Scalettar, Z.-X. Shen, and T.P. Devereaux, "Effect of strong correlations on the high energy anomaly in hole- and electron-doped high-T$_c$ superconductors," New J. Physics 11, 093020 (2009).
[179.] G.G. Batrouni, H.R. Krishnamurthy, K.W. Mahmud, V.G. Rousseau, and R.T. Scalettar, "Canonical Trajectories and Critical Coupling of the Bose-Hubbard Hamiltonian in a Harmonic Trap," Phys. Rev. A78 023627 (2008).
[178.] K. Bouadim, G.G. Batrouni, F. H\'ebert, and R.T. Scalettar, "d-wave Superconductivity in a bilayer Hubbard Model," Phys. Rev. B77, 144527 (2008).
[177.] C.N. Varney, V. Rousseau, and R.T. Scalettar, "Quantum Monte Carlo study of the visibility of one-dimensional Bose-Fermi mixtures," Phys. Rev. A77, 041608 (2008).
[176.] V.G. Rousseau, A. Baldwin, A. Zujev, P.J.H. Denteneer, M. Rigol, and R.T. Scalettar, Superfluid and Mott Insulator Phases of one dimensional Bose-Fermi Mixtures, Phys. Rev. A78, 033619 (2008).
[175.] K. Bouadim, M. Enjalran, F. Hebert, G.G. Batrouni, and R.T. Scalettar, Sign change of the extended s-wave pairing vertex in the dynamic Hubbard model: A quantum Monte Carlo study, Phys. Rev. B77, 014516 (2008).
[174.] G.G. Batrouni, M.H. Huntley, V.G. Rousseau and R.T. Scalettar, "Exact Numerical Study of Pair Formation with Imbalanced Fermion Populations," Phys. Rev. Lett. 100, 116405 (2008).
[173.] K. Aryanpour, T. Paiva, W.E. Pickett, and R.T. Scalettar, "Effect of Inhomogeneity on s-wave Superconductivity in the Attractive Hubbard Model," Phys. Rev. B76, 184521 (2007).
[172.] K.-W. Lee, J. Kunes, R. T. Scalettar, and W. E. Pickett, Correlation Effects in the Triangular Lattice Single-band System LixNbO2, Phys. Rev. B76, 144513 (2007).
[171.] J. Kunes, A.V. Lukoyanov, V.I. Anisimov, R.T. Scalettar, Collapse of Magnetic Moment drives the Mott Transition in MnO, Nature Materials 7, 198 (2008).
[170.] A. Zujev and R.T. Scalettar, "Monte Carlo Simulations of an Extended Feynman-Kikuchi Model," Phys. Rev. B76, 174524 (2007).
[169.] H.A. Craig, C.N. Varney, W.E. Pickett, and R.T. Scalettar, "Static versus Dynamic Fluctuations in the One-Dimensional Extended Hubbard Model," Phys. Rev. B76, 125103 (2007).
[168.] R.T. Scalettar, "Numerical Studies of Disordered Tight-Binding Hamiltonians," Lectures on the Physics of Strongly Correlated Systems XI: Eleventh Training Course in the Physics of Strongly Correlated Systems" edited by A. Avella and F. Mancini; in AIP Conference Proceedings Series volume 918, 111 (2007).
[167.] K. Bouadim, N. Paris, F. Hebert, G.G. Batrouni, and R.T. Scalettar, "Metallic phase in the two-dimensional ionic Hubbard model," Phys. Rev. B76, 085112. (2007).
[166.] P.B. Chakraborty, P.J.H. Denteneer, and R.T. Scalettar, "Determinant quantum Monte Carlo study of the screening of the one-body potential near a metal-insulator transition," Phys. Rev. B75, 125117 (2007).
[165.] R.T. Scalettar, M. Rigol, V.G. Rousseau, P. Sengupta, G.G. Batrouni, F. Hebert, P.J.H. Denteneer, A. Muramatsu, and M. Troyer, "Phase Diagram and Visibility of Optically Trapped Bosons," AIP Conf. Proc. 816, 232 (2006).
[164.] N. Paris, K. Bouadim, F. Hebert, G.G. Batrouni, and R.T. Scalettar, "Quantum Monte Carlo Study of an Interaction-Driven Band Insulator to Metal Transition," Phys. Rev. Lett. 98, 046403 (2007).
[163.] N. Paris, A. Baldwin, and R.T. Scalettar, "Mott and Band Insulator Transitions in the Binary Alloy Hubbard Model," Phys. Rev. B75, 165113 (2007).
[162.] G.G. Batrouni, F. Hebert, and R.T. Scalettar, "Supersolid phases in the one dimensional extended soft core Bosonic Hubbard model," Phys. Rev. Lett. 97, 087209 (2006).
[161.] B.R. Maddox, C.S. Yoo, D. Kasinathan, W.E. Pickett, and R.T. Scalettar, "High Pressure Study of Half-Metallic CrO2," Phys. Rev. B73, 144111 (2006).
[160.] K. Aryanpour, W.E. Pickett, and R.T. Scalettar, "DMFT Study of the Hubbard Model on a Triangular Lattice," Phys. Rev. B74, 085117 (2006).
[159.] V.G. Rousseau, M. Rigol, F. Hebert, D.P. Arovas, G.G. Batrouni, and R.T. Scalettar, "Exact Study of the 1D Boson Hubbard Model with a Superlattice Potential," Phys. Rev. B73, 174516 (2006).
[158.] K. Held, I.A. Nekrasov, G. Keller, V. Eyert, N. Bl\"umer, A.K. McMahan, R.T. Scalettar, Th. Pruschke, V.I. Anisimov, and D. Vollhardt, "Realistic investigations of correlated electron systems with LDA+DMFT," Phys. Stat. Sol. 243, 2599 (2006).
[157.] B.R. Maddox, A. Lazicki, C.S. Yoo, V. Iota, M. Chen, A. McMahan, M.Y. Hu, P. Chow, R.T. Scalettar, and W.E. Pickett, "4f Delocalization in Gd: Inelastic X-Ray Scattering at Ultrahigh Pressure," Phys. Rev. Lett. 96, 215701 (2006).
[156.] F. Hebert, K. Bouadim, M. Enjalran, G.G. Batrouni, and R.T. Scalettar, "Dynamic Hubbard Model: A Monte Carlo Study," Effective Models for Low-Dimensional Strongly Correlated Systems}, September 2005, Peyresq, France, G. G. Batrouni and D. Poilblanc eds. (American Institute of Physics, Melville, New York, 2006).
[155.] M. Rigol, A. Muramatsu, G. G. Batrouni, V. Rousseau, R. T. Scalettar, P. J. H. Denteneer, and M. Troyer, "Mott domains of bosons and fermions confined in optical lattices," AIP Conf. Proc. 678, 283 (2003).
[154.] M. Rigol, R. T. Scalettar, G. G. Batrouni, and P. Sengupta, "Time of flight experiments and the formation of Mott domains of fermions and bosons on optical lattices," Phys. Rev. B73, 121103(R) (2006).
[153.] Deepa Kasinathan, J. Kunes, A. Lazicki, H. Rosner, C.-S. Yoo, R.T. Scalettar, and W.E. Pickett, "Singular Kohn Anomaly Surfaces and Superconductivity in Compressed Lithium," Phys. Rev. Lett. 96, 047004 (2006).
[152.] P. Sengupta, M. Rigol, G. G. Batrouni, P. J. H. Denteneer, and R. T. Scalettar, "Phase coherence, visibility, and the superfluid--Mott-insulator transition on one-dimensional optical lattices," Phys. Rev. Lett. 95, 220402 (2005).
[151.] C.M. Chaves, T. Paiva, J. d'Albuquerque e Castro, F. Hebert, R.T. Scalettar, G.G. Batrouni, and B. Koiller, "The magnetic susceptibility of exchange-disordered antiferromagnetic finite chains," Phys. Rev. B73, 104410 (2006).
[150.] M. Rigol, V. Rousseau, R.T. Scalettar, and R.R.P. Singh, "Dipolar Oscillations of Strongly Correlated Bosons on a One-Dimensional Lattice," Proceedings of the 24th International Conference on Low Temperature Physics, Orlando, Florida, USA, August, 2005.
[149.] V.G. Rousseau, R.T. Scalettar, and G.G. Batrouni, "Ring Exchange and Phase Separation in the two-dimensional Boson Hubbard model," Phys. Rev. B72, 054524 (2005).
[148.] K. Aryanpour, E.R. Dagotto, M. Mayr, T. Paiva, W.E. Pickett, and R.T. Scalettar "Effect of Inhomogeneity on s-wave Superconductivity in the Attractive Hubbard Model," Phys. Rev. B73, 104518 (2006).
[147.] Daniel Hurt, Evan Odabashian, Warren Pickett, Richard Scalettar, Felipe Mondaini, Thereza Paiva, and Raimundo dos Santos, "Destruction of Superconductivity by Impurities in the Attractive Hubbard Model," Phys. Rev. B72, 144513 (2005).
[146.] A. Lazicki, B. Maddox, W. Evans, C.S. Yoo, A.K. McMahan, W.E. Pickett, R.T. Scalettar, M.Y. Hu, and P. Chow, "New cubic phase of lithium nitride to 200 GPa," Phys. Rev. Lett. 95, 165503 (2005).
[145.] D. Hurt, M. Eitzel, R. T. Scalettar, and G.G. Batrouni, "Analysis of the Blume Capel Model with the Wang-Landau Algorithm," ``Computer Simulation Studies in Condensed Matter Physics--Recent Developments," Springer Proceedings in Physics, D.P. Landau and H.-B.Schuttler (eds), Springer--Verlag.
[144.] M. Rigol, V. Rousseau, R. T. Scalettar, and R. R. P. Singh, "Collective Oscillations of Strongly Correlated 1D Bosons on a Lattice," Phys. Rev. Lett. 95, 110402 (2005).
[143.] G.G. Batrouni, F.F. Assaad, R.T. Scalettar, P.J.H. Denteneer, "Dynamic response of trapped ultracold bosons on optical lattices," Phys. Rev. A72, R031601 (2005).
[142.] E.Y. Loh, J.E. Gubernatis, R.T. Scalettar, S.R. White, D.J. Scalapino, and R.L. Sugar, "Numerical Stability and the Sign Problem in the Determinant Quantum Monte Carlo Method," Intl. J. Mod. Phys. 16, 1319 (2005).
[141.] M. Rigol, S. R. Manmana, A. Muramatsu, R. T. Scalettar, R. R. P. Singh, and S. Wessel, "Comment on `Novel Superfluidity in a Trapped Gas of Fermi Atoms with Repulsive Interaction Loaded on an Optical Lattice'", Phys. Rev. Lett. 95, 218901 (2005).
[140.] R. T. Scalettar, G. Batrouni, P. Denteneer, F. H\'ebert, A. Muramatsu, M. Rigol, V. Rousseau, and M. Troyer, "Equilibrium and Dynamical Properties of the Boson Hubbard Model in One Dimension," J. Low Temp. Phys. 140, 315 (2005).
[139.] F. Hebert, G.G. Batrouni, and R. T. Scalettar, "Solitons in Trapped Bose-Einstein condensates in one-dimensional optical lattices," Phys. Rev. A71, 063609 (2005).
[138.] N. Trivedi, P.J.H. Denteneer, D. Heidarian, and R.T. Scalettar, "Effect of Interactions, Disorder and Magnetic Field in the 2D Hubbard Model," Pramana-J. of Physics 64, 1051 (2005).
[137.] M. Rigol, A. Muramatsu, G.G. Batrouni, and R.T. Scalettar, "Local Mott metal-insulator transition in confined fermions on optical lattices," AIP Conf. Proc. 715, 225-234 (2004).
[136.] C.S. Yoo, B. Maddox, J.H.P. Klepeis, V. Iota, W. Evans, A. McMahan, M. Hu, P. Chow, M. Somayazulu, D. Hausermann, R.T. Scalettar, and W.E. Pickett, "First-order Isostructural Mott transition in highly-compressed MnO," Phys. Rev. Lett. 94, 115502 (2005).
[135.] Thereza Paiva, R.T. Scalettar, W. Zheng, R.R.P. Singh, and J. Oitmaa, " Ground state and finite temperature signatures of quantum criticality in the Half-filled Hubbard Model on a Honeycomb Lattice," Phys. Rev. B72, 085123 (2005).
[134.] C.R. Pike, C.A. Ross, R.T. Scalettar, and G.T. Zimanyi, "FORC diagram analysis of perpendicular nickel nanopillar array," Phys. Rev. B71, 134407 (2005).
[133.] M. Mikulis, C.J. Olson-Reichhardt, C. Reichhardt, R.T. Scalettar, and G.T. Zimanyi, "Reentrant Disordering of Colloidal Molecular Crystals on 2D Periodic Substrate," J. Phys.: Condens. Matter 16, 7909 (2004).
[132.] V. Rousseau, G. G. Batrouni, and R.T. Scalettar, "Phase separation in the bosonic Hubbard model with ring exchange," Phys. Rev. Lett. 93, 110404 (2004).
[131.] C.R. Pike, R.T. Scalettar, and F. Pazmandi, "First-order reversal-curve study of the Preisach distribution of particulate magnetic media," unpublished
[130.] H.G. Katzgraber, F. Pazmandi, C.R. Pike, K. Liu, R.T. Scalettar, K.L. Verosub, and G.T. Zimanyi, Reversal-Field Memory in Magnetic Hysteresis J. Appl. Phys. 93, 6617 (2003).
[129.] R.T. Scalettar, ``Computational Quantum Magnetism (Lecture I),'' ``Computational Quantum Magnetism (Lecture II),'' ``Computational Quantum Magnetism (Lecture III),'' Boulder Summer School on Frontiers in Magnetism, July, 2003.
[128.] K. Held, I.A. Nekrasov, G. Keller, V. Eyert, N. Blumer, A.K. McMahan, R.T. Scalettar, Th. Pruschke, V.I. Anisimov, and D. Vollhardt, Psi-k Newsletter 56, April, 65-103 (2003). ``Realistic investigations of correlated electron systems with LDA+DMFT'', Psi-k Newsletter 56, April, 65-103 (2003).
[127.] M. Rigol, A. Muramatsu, G.G. Batrouni, and R.T. Scalettar, "Local quantum criticality in confined fermions on optical lattices,'' Phys. Rev. Lett. 91, 130403 (2003).
[126.] Thereza Paiva, Raimundo R, Dos Santos, P.J.H. Denteneer, and R.T. Scalettar, "Critical Temperature for the two-dimensional attractive Hubbard Model,'' Phys. Rev. B69, 184501 (2003).
[125.] P.J.H. Denteneer and R.T. Scalettar, "Interacting electrons in a two-dimensional disordered environment: Effect of a Zeeman magnetic field,'' Phys. Rev. Lett. 90, 246401 (2003).
[124.] Wei Ku, H. Rosner, W.E. Pickett, and R.T. Scalettar, "Microscopic analysis of insulating magnetism in La2Ba2Cu2O10 and Nd2Ba2Cu2O10,'' Journal of Solid State Chem. 171, 329 (2003).
[123.] M. Rigol, A. Muramatsu, G.G. Batrouni, V. Rousseau, R.T. Scalettar, P.J.H. Denteneer, and M. Troyer, "Mott Domains of bosons and fermions confined in optical lattices,'' Course in the Physics of Correlated Electron Systems and High-Tc Superconductors, Vietri sul Mare (Salerno), Italy, 14 - 25 October 2002.
[122.] Mahesh Chandran, R. T. Scalettar, and G. T. Zimanyi, "Dynamic Transition across the peak effect in type-II superconductors,'' Phys. Rev. B67, 052507 (2003).
[121.] Mahesh Chandran, R. T. Scalettar, and G. T. Zimanyi, ``Domain regime and peak effect in disordered vortex matter,'' Phys. Rev. B69, 024526 (2004).
[120.] A. K. McMahan, K. Held, and R. T. Scalettar, "Thermodynamic and spectral properties of compressed Ce calculated by the merger of the local density approximation and dynamical mean field theory," Phys. Rev. B67, 075108 (2003).
[119.] Pinaki Sengupta, Richard T. Scalettar, and Rajiv R.P. Singh, ``High Energy magnon dispersion in the half-filled Hubbard model: A comparison with La2CuO4,'' Phys. Rev. B66, 144420 (2002).
[118.] Wei Ku, H. Rosner, W.E. Pickett, R.T. Scalettar, and A.G. Eguiluz, ``Insulating Ferromagnetism in La2Ba2Cu2O10: an Ab Initio Wannier-Function Analysis,'' Phys. Rev. Lett. 89, 167204 (2002).
[117.] H.G. Katzgraber, F. Pazmandi, C.R. Pike, K. Liu, R.T. Scalettar, K.L. Verosub, and G.T. Zimanyi, ``Reversal-Field Memory in Magnetic Hysteresis,'' Phys. Rev. Lett. 89, 257202 (2002).
[116.] Mahesh Chandran, R. T. Scalettar, and G. T. Zimanyi, ``Metastability and uniqueness of vortex states at depinning'' Phys. Rev. Lett. 89, 187001 (2002).
[115.] G.G. Batrouni, V. Rousseau, R.T. Scalettar, M. Rigol, A. Muramatsu, and P.J.H. Denteneer, ``Mott Domains of Bosons Confined on Optical Lattices,'' Phys. Rev. Lett. 89, 117203 (2002).
[114.] K. Held, I.A. Nekrasov, G. Keller, V. Eyert, N. Blumer, A.K. McMahan, R.T. Scalettar, T. Pruschke, V.I. Anisimov, and D. Vollhardt, ``The LDA+DMFT Approach to Materials with Strong Electronic Correlations,'' Proceedings of the Winter School on ``Quantum Simulations of Complex Many-Body Systems: From Theory to Algorithms", eds. J. Grotendorst, D. Marx and A. Muramatsu, NIC Series Volume 10 (NIC Directors, Forschungszentrum Julich), 175-209 (2002).
[113.] Wei Ku, W.E. Pickett, R.T. Scalettar, and A.G. Eguiluz, ``Ab Initio Investigation of Collective Charge Excitations in MgB2'' Phys. Rev. Lett. 88, 057001 (2002).
[112.] K. Held, A.K. McMahan, and R.T. Scalettar, ``The Cerium Volume Collapse: Results from the LDA+DMFT Approach,'' Phys. Rev. Lett. 87, 276404 (2001).
[111.] C. Reichhardt, C.J. Olson, R.T. Scalettar, and G.T. Zimanyi, ``Commensurate and Incommensurate Vortex Lattice Melting in Periodic Pinning Arrays,'' Phys. Rev. B64, 144509 (2001).
[110.] C. Reichhardt, G.T. Zimanyi, R.T. Scalettar, A. Hoffmann, and Ivan K. Schuller, ``Individual and Multi Vortex Pinning in Systems with Periodic Pinning Arrays,'' Phys. Rev. B64, 052503 (2001).
[109.] J. Feinberg, R.T. Scalettar, and A. Zee, ``Phase Transitions in Non-Hermitian Matrix Models and the 'Single Ring' Theorem,'' Proceedings of Johns--Hopkins Conference on Non--Perturbative Quantum Field Theory, World Scientific.
[108.] P.J.H. Denteneer, R.T. Scalettar, and N. Trivedi, "Particle-Hole Symmetry and the Effect of Disorder on the Mott-Hubbard Insulator", Phys. Rev. Lett. 87, 146401 (2001).
[107.] M. Enjalran, F. Hebert, G. G. Batrouni, R.T. Scalettar, and S. Zhang, ``Constrained Path Quantum Monte Carlo Simulations of the Disordered Two--Dimensional Hubbard Model,'' Phys. Rev. B64, 184402 (2001).
[106.] J. Feinberg, R.T. Scalettar, and A. Zee, `` `Single Ring Theorem' and the Disk-Annulus Phase Transition,'' J. Math. Phys. 42, 5718 (2001).
[105.] F. Hebert, G.G. Batrouni R.T. Scalettar G. Schmid, M. Troyer and A. Dorneich, ``Quantum phase transitions in the two-dimensional hardcore boson model,'' Phys. Rev. B65, 014513 (2002)
[104.] T. Paiva, G. Esirgen, R.T. Scalettar, Carey Huscroft, and A.K. McMahan, ``Doping-dependent study of the periodic Anderson model in three dimensions'' Phys. Rev. B68, 195111 (2003).
[103.] C.J. Olson, C. Reichhardt, R.T. Scalettar, G.T. Zimanyi, and N. Gronbech-Jensen, ``Disordering Transitions in Vortex Matter: Peak Effect and Phase Diagram,'' Physica C384, 143 (2002).
[102.] T. Paiva, C. Huscroft, A.K. McMahan, and R.T. Scalettar, ``Signatures of Spin and Charge Energy Scales in the Local Moment and Specific Heat of the Hubbard Model,'' Phys. Rev. B63, 25116 (2001).
[101.] M. Enjalran, R.T. Scalettar, and S.M. Kauzlarich, ``Geometric Frustration in the mixed layer pnictide oxides,'' Can. J. Phys. 79, 1333 (2001).
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