Main / Publications

Publications and preprints [INSPIRE, ORCID, arXiv, Google]

(Convention: authors in alphabetical order)

Refereed journal articles

  1. Stealth dark matter spectrum using LapH and Irreps
    LSD Collaboration: Richard C. Brower, Christopher Culver, Kimmy K. Cushman, George T. Fleming, Anna Hasenfratz, Dean Howarth, James Ingoldby, Xiao Yong Jin, Graham D. Kribs, Aaron S. Meyer, Ethan T. Neil, James C. Osborn, Evan Owen, Sungwoo Park, Claudio Rebbi, Enrico Rinaldi, David Schaich, Pavlos Vranas, Evan Weinberg and Oliver Witzel
    Submitted to Physical Review D (2024) [arXiv:2312.07836, INSPIRE]

  2. Phase diagram of two-dimensional SU(N) super-Yang–Mills theory with four supercharges
    Navdeep Singh Dhindsa, Raghav G. Jha, Anosh Joseph and David Schaich
    Submitted to Journal of High Energy Physics (2023) [arXiv:2312.04980, INSPIRE]
    Data release at doi:10.5281/zenodo.10083864

  3. First-order bulk transitions in large-N lattice Yang–Mills theories using the density of states
    Felix Springer, Enrico Rinaldi and David Schaich
    Submitted to Physical Review D (2023) [arXiv:2311.10243, INSPIRE]

  4. Hidden Conformal Symmetry from the Lattice
    LSD Collaboration: Thomas Appelquist, Richard C. Brower, Kimmy K. Cushman, George T. Fleming, Andrew Gasbarro, Anna Hasenfratz, James Ingoldby, Xiao-Yong Jin, Ethan T. Neil, James C. Osborn, Claudio Rebbi, Enrico Rinaldi, David Schaich, Pavlos Vranas, Evan Weinberg and Oliver Witzel
    Physical Review D 109:L091505 (2023, Letter) [arXiv:2305.03665, INSPIRE]

  5. Light Scalar Meson and Decay Constant in SU(3) Gauge Theory with Eight Dynamical Flavors
    LSD Collaboration: Richard C. Brower, Evan Owen, Claudio Rebbi, Christopher Culver, David Schaich, Kimmy K. Cushman, George T. Fleming, Andrew Gasbarro, Anna Hasenfratz, Ethan T. Neil, James Ingoldby, Xiao-Yong Jin, James C. Osborn, Enrico Rinaldi, Pavlos Vranas, Evan Weinberg and Oliver Witzel
    Submitted to Physical Review D (2023) [arXiv:2306.06095, INSPIRE]
    Data release at doi:10.5281/zenodo.8007954

  6. Lattice studies of supersymmetric gauge theories
    David Schaich
    European Physical Journal Special Topics 232:305 (2023) [arXiv:2208.03580, INSPIRE]

  7. Non-perturbative phase structure of the bosonic BMN matrix model
    Navdeep Singh Dhindsa, Raghav G. Jha, Anosh Joseph, Abhishek Samlodia and David Schaich
    Journal of High Energy Physics 2205:169 (2022) [arXiv:2201.08791, INSPIRE]
    Data release at doi:10.5281/zenodo.6462432

  8. Goldstone boson scattering with a light composite scalar
    LSD Collaboration: Thomas Appelquist, Richard C. Brower, Kimmy K. Cushman, George T. Fleming, Andrew Gasbarro, Anna Hasenfratz, James Ingoldby, Xiao-Yong Jin, Joe Kiskis, Ethan T. Neil, James C. Osborn, Claudio Rebbi, Enrico Rinaldi, David Schaich, Pavlos Vranas, Evan Weinberg and Oliver Witzel
    Physical Review D 105:034505 (2022, Editors' Suggestion) [arXiv:2106.13534, INSPIRE]

  9. Eigenvalue spectrum and scaling dimension of lattice N=4 supersymmetric Yang–Mills
    Georg Bergner and David Schaich
    Journal of High Energy Physics 2104:260 (2021) [arXiv:2102.06775, INSPIRE]

  10. Stealth dark matter confinement transition and gravitational waves
    LSD Collaboration: Richard C. Brower, Kimmy Cushman, George T. Fleming, Andrew Gasbarro, Anna Hasenfratz, Xiao-Yong Jin, Graham D. Kribs, Ethan T. Neil, James C. Osborn, Claudio Rebbi, Enrico Rinaldi, David Schaich, Pavlos Vranas and Oliver Witzel
    Physical Review D 103:014505 (2021) [arXiv:2006.16429, INSPIRE]
    Data release at doi:10.5281/zenodo.3921870

  11. Near-conformal dynamics in a chirally broken system
    LSD Collaboration: Thomas Appelquist, Richard C. Brower, Kimmy K. Cushman, George T. Fleming, Andrew D. Gasbarro, Anna Hasenfratz, Xiao-Yong Jin, Ethan T. Neil, James C. Osborn, Claudio Rebbi, Enrico Rinaldi, David Schaich, Pavlos Vranas and Oliver Witzel
    Physical Review D 103:014504 (2021) [arXiv:2007.01810, INSPIRE]

  12. Three-dimensional super-Yang–Mills theory on the lattice and dual black branes
    Simon Catterall, Joel Giedt, Raghav G. Jha, David Schaich and Toby Wiseman
    Physical Review D 102:106009 (2020) [arXiv:2010.00026, INSPIRE]
    Data release at doi:10.5281/zenodo.4059476

  13. Nonpeturbative investigations of SU(3) gauge theory with eight dynamical flavors
    LSD Collaboration: Thomas Appelquist, Richard C. Brower, George T. Fleming, Andrew Gasbarro, Anna Hasenfratz, Xiao-Yong Jin, Ethan T. Neil, James C. Osborn, Claudio Rebbi, Enrico Rinaldi, David Schaich, Pavlos Vranas, Evan Weinberg and Oliver Witzel
    Physical Review D 99:014509 (2019) [arXiv:1807.08411, INSPIRE]

  14. SO(4) invariant Higgs-Yukawa model with reduced staggered fermions
    Nouman Butt, Simon Catterall and David Schaich
    Physical Review D 98:114514 (2018) [arXiv:1810.06117, INSPIRE]

  15. Linear Sigma EFT for Nearly Conformal Gauge Theories
    LSD Collaboration: Thomas Appelquist, Richard C. Brower, George T. Fleming, Andrew Gasbarro, Anna Hasenfratz, James Ingoldby, Joe Kiskis, James C. Osborn, Claudio Rebbi, Enrico Rinaldi, David Schaich, Pavlos Vranas, Evan Weinberg and Oliver Witzel
    Physical Review D 98:114510 (2018, Editors' Suggestion) [arXiv:1809.02624, INSPIRE]

  16. Solution of the sign problem in the Potts model at fixed fermion number
    Andrei Alexandru, Georg Bergner, David Schaich and Urs Wenger
    Physical Review D 97:114503 (2018) [arXiv:1712.07585, INSPIRE]

  17. Testing holography using lattice super-Yang–Mills on a 2-torus
    Simon Catterall, Raghav G. Jha, David Schaich and Toby Wiseman
    Physical Review D 97:086020 (2018) [arXiv:1709.07025, INSPIRE]

  18. Nonperturbative beta function of twelve-flavor SU(3) gauge theory
    Anna Hasenfratz and David Schaich
    Journal of High Energy Physics 1802:132 (2018) [arXiv:1610.10004, INSPIRE]

  19. Novel phases in strongly coupled four-fermion theories
    Simon Catterall and David Schaich
    Physical Review D 96:034506 (2017) [arXiv:1609.08541, INSPIRE]

  20. Strongly interacting dynamics and the search for new physics at the LHC
    LSD Collaboration: Thomas Appelquist, Richard C. Brower, George T. Fleming, Anna Hasenfratz, Xiao-Yong Jin, Joe Kiskis, Ethan T. Neil, James C. Osborn, Claudio Rebbi, Enrico Rinaldi, David Schaich, Pavlos Vranas, Evan Weinberg, Oliver Witzel
    Physical Review D 93:114514 (2016) [arXiv:1601.04027, INSPIRE]

  21. Detecting Stealth Dark Matter Directly through Electromagnetic Polarizability
    LSD Collaboration: Thomas Appelquist, Evan Berkowitz, Richard C. Brower, Michael I. Buchoff, George T. Fleming, Xiao-Yong Jin, Joe Kiskis, Graham D. Kribs, Ethan T. Neil, James C. Osborn, Claudio Rebbi, Enrico Rinaldi, David Schaich, Chris Schroeder, Sergey Syritsyn, Pavlos Vranas, Evan Weinberg and Oliver Witzel
    Physical Review Letters 115:171803 (2015, Editors' Suggestion) [arXiv:1503.04205, INSPIRE]

  22. Stealth dark matter: Dark scalar baryons through the Higgs portal
    LSD Collaboration: Thomas Appelquist, Richard C. Brower, Michael I. Buchoff, George T. Fleming, Xiao-Yong Jin, Joe Kiskis, Graham D. Kribs, Ethan T. Neil, James C. Osborn, Claudio Rebbi, Enrico Rinaldi, David Schaich, Chris Schroeder, Sergey Syritsyn, Pavlos Vranas, Evan Weinberg and Oliver Witzel
    Physical Review D 92:075030 (2015, Editors' Suggestion) [arXiv:1503.04203, INSPIRE]

  23. Lifting flat directions in lattice supersymmetry
    Simon Catterall and David Schaich
    Journal of High Energy Physics 1507:057 (2015) [arXiv:1505.03135, INSPIRE]

  24. Nonperturbative beta function of eight-flavor SU(3) gauge theory
    Anna Hasenfratz, David Schaich and Aarti Veernala
    Journal of High Energy Physics 1506:143 (2015) [arXiv:1410.5886, INSPIRE]

  25. Parallel software for lattice N=4 supersymmetric Yang–Mills theory
    David Schaich and Thomas DeGrand
    Computer Physics Communications 190:200–212 (2015) [arXiv:1410.6971, INSPIRE]

  26. Lattice simulations with eight flavors of domain wall fermions in SU(3) gauge theory
    LSD Collaboration: Thomas Appelquist, Richard C. Brower, George T. Fleming, Joe Kiskis, Meifeng Lin, Ethan T. Neil, James C. Osborn, Claudio Rebbi, Enrico Rinaldi, David Schaich, Chris Schroeder, Sergey Syritsyn, Gennady Voronov, Pavlos Vranas, Evan Weinberg and Oliver Witzel
    Physical Review D 90:114502 (2014) [arXiv:1405.4752, INSPIRE]

  27. N=4 supersymmetry on a space-time lattice
    Simon Catterall, Poul H. Damgaard, Thomas DeGrand, Joel Giedt and David Schaich
    Physical Review D 90:065013 (2014) [arXiv:1405.0644, INSPIRE]

  28. Finite size scaling of conformal theories in the presence of a near-marginal operator
    Anqi Cheng, Anna Hasenfratz, Yuzhi Liu, Gregory Petropoulos and David Schaich
    Physical Review D 90:014509 (2014) [arXiv:1401.0195, INSPIRE]

  29. Maximum-likelihood approach to topological charge fluctuations in lattice gauge theory
    LSD Collaboration: Richard C. Brower, Michael Cheng, George T. Fleming, Meifeng Lin, Ethan T. Neil, James C. Osborn, Claudio Rebbi, Enrico Rinaldi, David Schaich, Chris Schroeder, Gennady Voronov, Pavlos Vranas, Evan Weinberg and Oliver Witzel
    Physical Review D 90:014503 (2014) [arXiv:1403.2761, INSPIRE]

  30. Composite bosonic baryon dark matter on the lattice: SU(4) baryon spectrum and the effective Higgs interaction
    LSD Collaboration: Thomas Appelquist, Evan Berkowitz, Richard C. Brower, Michael I. Buchoff, George T. Fleming, Joe Kiskis, Graham D. Kribs, Meifeng Lin, Ethan T. Neil, James C. Osborn, Claudio Rebbi, Enrico Rinaldi, David Schaich, Chris Schroeder, Sergey Syritsyn, Gennady Voronov, Pavlos Vranas, Evan Weinberg and Oliver Witzel
    Physical Review D 89:094508 (2014) [arXiv:1402.6656, INSPIRE]

  31. Improving the continuum limit of gradient flow step scaling
    Anqi Cheng, Anna Hasenfratz, Yuzhi Liu, Gregory Petropoulos and David Schaich
    Journal of High Energy Physics 1405:137 (2014) [arXiv:1404.0984, INSPIRE]

  32. Two-Color Gauge Theory with Novel Infrared Behavior
    LSD Collaboration: Thomas Appelquist, Richard C. Brower, Michael I. Buchoff, Michael Cheng, George T. Fleming, Joe Kiskis, Meifeng Lin, Ethan T. Neil, James C. Osborn, Claudio Rebbi, David Schaich, Chris Schroeder, Sergey Syritsyn, Gennady Voronov, Pavlos Vranas and Oliver Witzel
    Physical Review Letters 112:111601 (2014) [arXiv:1311.4889, INSPIRE]

  33. Scale-dependent mass anomalous dimension from Dirac eigenmodes
    Anqi Cheng, Anna Hasenfratz, Gregory Petropoulos and David Schaich
    Journal of High Energy Physics 1307:061 (2013) [arXiv:1301.1355, INSPIRE]

  34. Lattice calculation of composite dark matter form factors
    LSD Collaboration: Thomas Appelquist, Richard C. Brower, Michael I. Buchoff, Michael Cheng, Saul D. Cohen, George T. Fleming, Joe Kiskis, Meifeng Lin, Ethan T. Neil, James C. Osborn, Claudio Rebbi, David Schaich, Chris Schroeder, Sergey Syritsyn, Gennady Voronov, Pavlos Vranas and Joseph Wasem
    Physical Review D 88:014502 (2013) [arXiv:1301.1693, INSPIRE]

  35. Novel phase in SU(3) lattice gauge theory with 12 light fermions
    Anqi Cheng, Anna Hasenfratz and David Schaich
    Physical Review D 85:094509 (2012) [arXiv:1111.2317, INSPIRE]

  36. WW scattering parameters via pseudoscalar phase shifts
    LSD Collaboration: Thomas Appelquist, Ron Babich, Richard C. Brower, Michael I. Buchoff, Michael Cheng, Michael A. Clark, Saul D. Cohen, George T. Fleming, Joe Kiskis, Meifeng Lin, Ethan T. Neil, James C. Osborn, Claudio Rebbi, David Schaich, Sergey Syritsyn, Gennady Voronov, Pavlos Vranas and Joseph Wasem
    Physical Review D 85:074505 (2012) [arXiv:1201.3977, INSPIRE]

  37. Exploring strange nucleon form factors on the lattice
    Ronald Babich, Richard C. Brower, Michael A. Clark, George T. Fleming, James C. Osborn, Claudio Rebbi and David Schaich
    Physical Review D 85:054510 (2012) [arXiv:1012.0562, INSPIRE]

  38. Lattice simulations and infrared conformality
    Thomas Appelquist, George T. Fleming, Meifeng Lin, Ethan T. Neil and David Schaich
    Physical Review D 84:054501 (2011) [arXiv:1106.2148, INSPIRE]

  39. Parity Doubling and the S Parameter below the Conformal Window
    LSD Collaboration: Thomas Appelquist, Ron Babich, Richard C. Brower, Michael Cheng, Michael A. Clark, Saul D. Cohen, George T. Fleming, Joe Kiskis, Meifeng Lin, Ethan T. Neil, James C. Osborn, Claudio Rebbi, David Schaich and Pavlos Vranas
    Physical Review Letters 106:231601 (2011) [arXiv:1009.5967, INSPIRE]

  40. Toward TeV Conformality
    LSD Collaboration: Thomas Appelquist, Adam Avakian, Ron Babich, Richard C. Brower, Michael Cheng, Michael A. Clark, Saul D. Cohen, George T. Fleming, Joseph Kiskis, Ethan T. Neil, James C. Osborn, Claudio Rebbi, David Schaich and Pavlos Vranas
    Physical Review Letters 104:071601 (2010) [arXiv:0910.2224, INSPIRE]

  41. Improved lattice measurement of the critical coupling in phi24 theory
    David Schaich and Will Loinaz
    Physical Review D 79:056008 (2009) [arXiv:0902.0045, INSPIRE]

Other articles, theses & white papers

  1. Lattice QCD and Particle Physics
    USQCD Collaboration
    Snowmass White Paper (2022) [arXiv:2207.07641, INSPIRE]

  2. Lattice Gauge Theory for Physics Beyond the Standard Model
    Richard C. Brower, Anna Hasenfratz, Ethan Neil, Simon Catterall, George Fleming, Joel Giedt, Enrico Rinaldi, David Schaich, Evan Weinberg and Oliver Witzel
    USQCD White Paper (2019) [arXiv:1904.09964, INSPIRE]
    [Published as European Physical Journal A 55:198 (2019)]

  3. Lattice Gauge Theories at the Energy Frontier
    Thomas Appelquist, Richard Brower, Simon Catterall, George Fleming, Joel Giedt, Anna Hasenfratz, Julius Kuti, Ethan Neil and David Schaich
    USQCD White Paper (2013) [arXiv:1309.1206, INSPIRE]

  4. Approaching Conformality with Ten Flavors
    LSD Collaboration: Thomas Appelquist, Richard C. Brower, Michael I. Buchoff, Michael Cheng, Saul D. Cohen, George T. Fleming, Joe Kiskis, Meifeng Lin, Heechang Na, Ethan T. Neil, James C. Osborn, Claudio Rebbi, David Schaich, Chris Schroeder, Gennady Voronov and Pavlos Vranas
    arXiv:1204.6000 (2012) [INSPIRE]

  5. Strong Dynamics and Lattice Gauge Theory
    David Schaich
    Ph.D. thesis, Boston University (2011) [INSPIRE]

  6. Hybrid Monte Carlo Simulation of Graphene on the Hexagonal Lattice
    R. C. Brower, C. Rebbi and David Schaich
    arXiv:1101.5131 (2011) [INSPIRE]

  7. Lattice Simulations of Nonperturbative Quantum Field Theories
    David Schaich
    B.A. thesis, Amherst College (2006) [INSPIRE]

Conference proceedings

  1. Deconfinement Phase Transition in Bosonic BMN Model at General Coupling
    Navdeep Singh Dhindsa, Anosh Joseph, Abhishek Samlodia and David Schaich
    Submitted to Springer Proceedings in Physics (2023) [arXiv:2308.02538, INSPIRE]

  2. Exploring conformality in lattice N=4 supersymmetric Yang–Mills
    David Schaich
    Proceedings of Science LATTICE2022:220 (2023) [arXiv:2304.04655, INSPIRE]

  3. Lattice Studies of 3D Maximally Supersymmetric Yang–Mills
    Angel Sherletov and David Schaich
    Proceedings of Science LATTICE2022:221 (2023) [arXiv:2303.13880, INSPIRE]

  4. Advances in using density of states for large-N Yang–Mills
    Felix Springer and David Schaich for the Lattice Strong Dynamics (LSD) Collaboration
    Proceedings of Science LATTICE2022:223 (2023) [arXiv:2303.01149, INSPIRE]

  5. Quantum computing for the Wess–Zumino model
    Christopher Culver and David Schaich
    Proceedings of Science LATTICE2022:008 (2023) [arXiv:2301.02230, INSPIRE]

  6. Progress applying density of states for gravitational waves
    Felix Springer and David Schaich for the Lattice Strong Dynamics (LSD) Collaboration
    European Physical Journal Web of Conferences 274:08008 (2022) [arXiv:2212.09199, INSPIRE]

  7. Investigations of supersymmetric Yang–Mills theories
    Angel Sherletov and David Schaich
    Proceedings of Science LATTICE2021:031 (2022) [arXiv:2201.08626, INSPIRE]

  8. Thermal phase structure of dimensionally reduced super-Yang–Mills
    David Schaich, Raghav G. Jha and Anosh Joseph
    Proceedings of Science LATTICE2021:187 (2022) [arXiv:2201.03097, INSPIRE]

  9. Density of states for gravitational waves
    Felix Springer and David Schaich
    Proceedings of Science LATTICE2021:043 (2022) [arXiv:2112.11868, INSPIRE]

  10. Quantum computing for lattice supersymmetry
    Christopher Culver and David Schaich
    Proceedings of Science LATTICE2021:153 (2022) [arXiv:2112.07651, INSPIRE]

  11. Large-N limit of two-dimensional Yang–Mills theory with four supercharges
    Navdeep Singh Dhindsa, Raghav G. Jha, Anosh Joseph and David Schaich
    Proceedings of Science LATTICE2021:433 (2022) [arXiv:2109.01001, INSPIRE]

  12. Thermal phase structure of a supersymmetric matrix model
    David Schaich, Raghav G. Jha and Anosh Joseph
    Proceedings of Science LATTICE2019:069 (2020) [arXiv:2003.01298, INSPIRE]

  13. Stealth dark matter and gravitational waves
    David Schaich for the Lattice Strong Dynamics (LSD) Collaboration
    Proceedings of Science LATTICE2019:068 (2020) [arXiv:2002.00187, INSPIRE]

  14. Exotic Phases of a Higgs–Yukawa Model with Reduced Staggered Fermions
    Simon Catterall, Nouman Butt and David Schaich
    Proceedings of Science LATTICE2019:044 (2020) [arXiv:2002.00034, INSPIRE]

  15. Progress and prospects of lattice supersymmetry
    David Schaich
    Proceedings of Science LATTICE2018:005 (2019) [arXiv:1810.09282, INSPIRE]

  16. Testing the holographic principle using lattice simulations
    Raghav G. Jha, Simon Catterall, David Schaich and Toby Wiseman
    European Physical Journal Web of Conferences 175:08004 (2018) [arXiv:1710.06398, INSPIRE]

  17. Phases of a strongly coupled four-fermion theory
    David Schaich and Simon Catterall
    European Physical Journal Web of Conferences 175:03004 (2018) [arXiv:1710.08137, INSPIRE]

  18. Maximally supersymmetric Yang–Mills on the lattice
    David Schaich and Simon Catterall
    Origin of Mass and Strong Coupling Gauge Theories:199 (2018) [arXiv:1508.00884, INSPIRE]
    [Reprinted as International Journal of Modern Physics A 32:1747019 (2017)]

  19. Finite-temperature study of eight-flavor SU(3) gauge theory
    David Schaich, Anna Hasenfratz and Enrico Rinaldi for the Lattice Strong Dynamics (LSD) Collaboration
    Origin of Mass and Strong Coupling Gauge Theories:351 (2018) [arXiv:1506.08791, INSPIRE]

  20. Latest results from lattice N=4 supersymmetric Yang–Mills
    David Schaich, Simon Catterall, Poul Damgaard and Joel Giedt
    Proceedings of Science LATTICE2016:221 (2016) [arXiv:1611.06561, INSPIRE]

  21. S-duality in lattice super Yang–Mills
    Joel Giedt, Simon Catterall, Poul Damgaard and David Schaich
    Proceedings of Science LATTICE2016:209 (2016) [arXiv:1804.07792, INSPIRE]

  22. Aspects of lattice N=4 supersymmetric Yang–Mills
    David Schaich
    Proceedings of Science LATTICE 2015:242 (2015) [arXiv:1512.01137, INSPIRE]

  23. Results from lattice simulations of N=4 supersymmetric Yang–Mills
    Simon Catterall, Joel Giedt, David Schaich, Poul H. Damgaard and Thomas DeGrand
    Proceedings of Science LATTICE2014:267 (2014) [arXiv:1411.0166, INSPIRE]

  24. Reaching the chiral limit in many flavor systems
    Anna Hasenfratz, Anqi Cheng, Gregory Petropoulos and David Schaich
    Strong Coupling Gauge Theories in the LHC Perspective:44 (2014) [arXiv:1303.7129, INSPIRE]

  25. Improved Lattice Renormalization Group Techniques
    Gregory Petropoulos, Anqi Cheng, Anna Hasenfratz and David Schaich
    Proceedings of Science LATTICE 2013:079 (2013) [arXiv:1311.2679, INSPIRE]

  26. Determining the mass anomalous dimension through the eigenmodes of Dirac operator
    Anqi Cheng, Anna Hasenfratz, Gregory Petropoulos and David Schaich
    Proceedings of Science LATTICE 2013:088 (2013) [arXiv:1311.1287, INSPIRE]

  27. Eight light flavors on large lattice volumes
    David Schaich for USBSM
    Proceedings of Science LATTICE 2013:072 (2013) [arXiv:1310.7006, INSPIRE]

  28. Finite size scaling and the effect of the gauge coupling in 12 flavor systems
    Anna Hasenfratz, Anqi Cheng, Gregory Petropoulos and David Schaich
    Proceedings of Science LATTICE 2013:075 (2013) [arXiv:1310.1124, INSPIRE]

  29. MCRG study of 8 and 12 fundamental flavors
    Gregory Petropoulos, Anqi Cheng, Anna Hasenfratz and David Schaich
    Proceedings of Science Lattice 2012:051 (2012) [arXiv:1212.0053, INSPIRE]

  30. Bulk and finite-temperature transitions in SU(3) gauge theories with many light fermions
    David Schaich, Anqi Cheng, Anna Hasenfratz and Gregory Petropoulos
    Proceedings of Science Lattice 2012:028 (2012) [arXiv:1207.7164, INSPIRE]

  31. Mass anomalous dimension from Dirac eigenmode scaling in conformal and confining systems
    Anna Hasenfratz, Anqi Cheng, Gregory Petropoulos and David Schaich
    Proceedings of Science Lattice 2012:034 (2012) [arXiv:1207.7162, INSPIRE]

  32. Strange nucleon form factors on 2+1f anisotropic wilson clover lattices
    Michael Cheng, Ronald Babich, Richard Brower, Michael A. Clark, Saul D. Cohen, George T. Fleming, Joel Giedt, James C. Osborn, Claudio Rebbi, David Schaich and Oliver Witzel
    Proceedings of Science Lattice 2012:166 (2012) [INSPIRE]

  33. Hybrid Monte Carlo simulation on the graphene hexagonal lattice
    Richard Brower, Claudio Rebbi and David Schaich
    Proceedings of Science Lattice 2011:056 (2011) [arXiv:1204.5424, INSPIRE]

  34. S parameter and parity doubling below the conformal window
    David Schaich for the Lattice Strong Dynamics (LSD) Collaboration
    Proceedings of Science Lattice 2011:087 (2011) [arXiv:1111.4993, INSPIRE]

  35. Lattice study of ChPT beyond QCD
    LSD Collaboration: Ethan T. Neil, Adam Avakian, Ron Babich, Richard C. Brower, Michael Cheng, Michael A. Clark, Saul D. Cohen, George T. Fleming, Joseph Kiskis, James C. Osborn, Claudio Rebbi, David Schaich and Pavlos Vranas
    Proceedings of Science CD09:088 (2009) [arXiv:1002.3777, INSPIRE]

  36. Möbius Algorithm for Domain Wall and GapDW Fermions
    Richard Brower, Ronald Babich, Kostas Orginos, Claudio Rebbi, David Schaich and Pavlos Vranas
    Proceedings of Science LATTICE 2008:034 (2008) [arXiv:0906.2813, INSPIRE]



Last modified 10 January 2024

Valid HTML 5! Valid CSS!
Free Software Foundation