Publikationer av Edwin Langmann

Refereegranskade

Artiklar

[1]

V. Melin och E. Langmann, "Closed-Form Propagator of the Calogero Model," Physical Review Letters, vol. 132, no. 17, 2024.

[2]

E. $$$Langmann, S. Ryu och K. Shiozaki, "Higher-bracket structure of density operators in Weyl fermion systems and topological insulators," Physical Review B, vol. 110, no. 19, 2024.

[3]

B. K. Berntson, E. Langmann och J. Lenells, "Elliptic soliton solutions of the spin non-chiral intermediate long-wave equation," Letters in Mathematical Physics, vol. 113, no. 3, 2023.

[4]

E. Langmann och C. Triola, "Universal and nonuniversal features of Bardeen-Cooper-Schrieffer theory with finite-range interactions," Physical Review B, vol. 108, no. 10, 2023.

[5]

E. Langmann, M. Noumi och J. Shiraishi, "Construction of Eigenfunctions for the Elliptic Ruijsenaars Difference Operators," Communications in Mathematical Physics, vol. 391, no. 3, s. 901-950, 2022.

[6]

M. Hallnas et al., "From Kajihara's transformation formula to deformed Macdonald-Ruijsenaars and Noumi-Sano operators," Selecta Mathematica, New Series, vol. 28, no. 2, 2022.

[7]

M. Hallnäs et al., "Higher Order Deformed Elliptic Ruijsenaars Operators," Communications in Mathematical Physics, vol. 392, no. 2, s. 659-689, 2022.

[8]

B. K. Berntson, E. Langmann och J. Lenells, "On the non-chiral intermediate long wave equation," Nonlinearity, vol. 35, no. 8, s. 4549-4584, 2022.

[9]

B. K. Berntson, E. Langmann och J. Lenells, "On the non-chiral intermediate long wave equation : II. Periodic case," Nonlinearity, vol. 35, no. 8, s. 4517-4548, 2022.

[10]

B. K. Berntson, E. Langmann och J. Lenells, "Spin generalizations of the Benjamin-Ono equation," Letters in Mathematical Physics, vol. 112, no. 3, 2022.

[11]

B. K. Berntson, R. Klabbers och E. Langmann, "The non-chiral intermediate Heisenberg ferromagnet equation," Journal of High Energy Physics (JHEP), vol. 2022, no. 3, 2022.

[12]

F. Atai, M. Hallnäs och E. Langmann, "Super-Macdonald Polynomials: Orthogonality and Hilbert Space Interpretation," Communications in Mathematical Physics, vol. 388, no. 1, s. 435-468, 2021.

[13]

E. Langmann, M. Noumi och J. Shiraishi, "Basic Properties of Non-Stationary Ruijsenaars Functions," Symmetry, Integrability and Geometry : Methods and Applications, vol. 16, 2020.

[14]

F. Atai och E. Langmann, "Exact solutions by integrals of the non-stationary elliptic Calogero–Sutherland equation," Journal of Integrable Systems, vol. 5, no. 1, 2020.

[15]

B. K. Berntson, R. Klabbers och E. Langmann, "Multi-solitons of the half-wave maps equation and Calogero-Moser spin-pole dynamics," Journal of Physics A : Mathematical and Theoretical, vol. 53, no. 50, 2020.

[16]

B. K. Berntson, E. Langmann och J. Lenells, "Nonchiral intermediate long-wave equation and interedge effects in narrow quantum Hall systems," Physical Review B, vol. 102, no. 15, 2020.

[17]

E. Langmann och P. Moosavi, "Diffusive Heat Waves in Random Conformal Field Theory," Physical Review Letters, vol. 122, no. 2, 2019.

[18]

A. Farrokh, M. Hallnas och E. Langmann, "Orthogonality of super‐Jack polynomials and a Hilbert space interpretation of deformed Calogero–Moser–Sutherland operators," Bulletin of the London Mathematical Society, vol. 51, no. 2, s. 353-370, 2019.

[19]

R. L. Frank, C. Hainzl och E. Langmann, "The BCS critical temperature in a weak homogeneous magnetic field," Journal of Spectral Theory, vol. 9, no. 3, s. 1005-1062, 2019.

[20]

E. Langmann, C. Triola och A. V. Balatsky, "Ubiquity of Superconducting Domes in the Bardeen-Cooper-Schrieffer Theory with Finite-Range Potentials," Physical Review Letters, vol. 122, no. 15, 2019.

[21]

E. Langmann och P. Moosavi, "Finite-Time Universality in Nonequilibrium CFT," Journal of statistical physics, vol. 172, no. 2, s. 353-378, 2018.

[22]

F. Atai och E. Langmann, "Series Solutions of the Non-Stationary Heun Equation," Symmetry, Integrability and Geometry : Methods and Applications, vol. 14, 2018.

[23]

F. Atai och E. Langmann, "Deformed Calogero-Sutherland model and fractional quantum Hall effect," Journal of Mathematical Physics, vol. 58, no. 1, 2017.

[24]

E. Langmann et al., "Steady states and universal conductance in a quenched Luttinger model," Communications in Mathematical Physics, vol. 349, no. 2, s. 551-582, 2017.

[25]

E. Langmann et al., "Time evolution of the Luttinger model with nonuniform temperature profile," Physical Review B, vol. 95, no. 23, 2017.

[26]

M. Hallnäs och E. Langmann, "A product formula for the eigenfunctions of a quartic oscillator," Journal of Mathematical Analysis and Applications, vol. 426, no. 2, s. 1012-1025, 2015.

[27]

E. Langmann och P. Moosavi, "Construction by bosonization of a fermion-phonon model," Journal of Mathematical Physics, vol. 56, no. 9, 2015.

[28]

E. Langmann, "Explicit Solution of the (Quantum) Elliptic Calogero-Sutherland Model," Annales de l'Institute Henri Poincare. Physique theorique, vol. 15, no. 4, s. 755-791, 2014.

[29]

J. de Woul och E. Langmann, "Gauge Invariance, Correlated Fermions, and Photon Mass in 2+1 Dimensions," Journal of statistical physics, vol. 154, no. 3, s. 877-894, 2014.

[30]

F. Atai, M. Hallnäs och E. Langmann, "Source Identities and Kernel Functions for Deformed (Quantum) Ruijsenaars Models," Letters in Mathematical Physics, vol. 104, no. 7, s. 811-835, 2014.

[31]

J. de Woul och E. Langmann, "Exact Solution of a 2D Interacting Fermion Model," Communications in Mathematical Physics, vol. 314, no. 1, s. 1-56, 2012.

[32]

J. De Woul och E. Langmann, "Fermions in Two Dimensions, Bosonization, and Exactly Solvable Models," International Journal of Modern Physics B, vol. 26, no. 22, s. 1244005, 2012.

[33]

E. Langmann och K. Takemura, "Source identity and kernel functions for Inozemtsev-type systems," Journal of Mathematical Physics, vol. 53, no. 8, s. 082105, 2012.

[34]

E. Langmann, "A 2D Luttinger Model," Journal of statistical physics, vol. 141, no. 1, s. 17-52, 2010.

[35]

E. Langmann, "A Two-Dimensional Analogue of the Luttinger Model," Letters in Mathematical Physics, vol. 92, no. 2, s. 109-124, 2010.

[36]

M. Hallnäs och E. Langmann, "A Unified Construction of Generalized Classical Polynomials Associated with Operators of Calogero-Sutherland Type," Constructive approximation, vol. 31, no. 3, s. 309-342, 2010.

[37]

J. de Woul och E. Langmann, "Partially Gapped Fermions in 2D," Journal of statistical physics, vol. 139, no. 6, s. 1033-1065, 2010.

[38]

E. Langmann, "Source Identity and Kernel Functions for Elliptic Calogero-Sutherland Type Systems," Letters in Mathematical Physics, vol. 94, no. 1, s. 63-75, 2010.

[39]

E. Langmann och G. Lindblad, "Fermi's Golden Rule and Exponential Decay as a RG Fixed Point," Journal of statistical physics, vol. 134, no. 4, s. 749-768, 2009.

[40]

E. Langmann och M. Wallin, "Mean field magnetic phase diagrams for the two dimensional t-t '-U Hubbard model," Journal of statistical physics, vol. 127, no. 4, s. 825-840, 2007.

[41]

E. Langmann, "Singular Eigenfunctions of Calogero-Sutherland Type Systems and How to Transform Them into Regular Ones," Symmetry, Integrability and Geometry : Methods and Applications, vol. 3, s. 031, 2007.

[42]

M. Hallnäs och E. Langmann, "Explicit formulae for the eigenfunctions of the N-body Calogero model," Journal of Physics A : Mathematical and General, vol. 39, no. 14, s. 3511-3533, 2006.

[43]

F. Calogero och E. Langmann, "Goldfishing by gauge theory," Journal of Mathematical Physics, vol. 47, no. 8, 2006.

[44]

E. Langmann, "Remarkable identities related to the (quantum) elliptic Calogero-Sutherland model," Journal of Mathematical Physics, vol. 47, no. 2, 2006.

[45]

E. Langmann, A. Laptev och C. Paufler, "Singular factorizations, self-adjoint extensions and applications to quantum many-body physics," Journal of Physics A : Mathematical and General, vol. 39, no. 5, s. 1057-1071, 2006.

[46]

M. Hallnäs och E. Langmann, "Exact solutions of two complementary one-dimensional quantum many-body systems on the half-line," Journal of Mathematical Physics, vol. 46, no. 5, 2005.

[47]

E. Langmann, "Gauge theory approach towards an explicit solution of the (classical) elliptic Calogero-Moser system," Journal of Nonlinear Mathematical Physics, vol. 12, s. 423-439, 2005.

[48]

M. Hallnäs, E. Langmann och C. Paufler, "Generalized local interactions in 1D : solutions of quantum many-body systems describing distinguishable particles," Journal of Physics A : Mathematical and General, vol. 38, no. 22, s. 4957-4974, 2005.

[49]

H. Grosse, E. Langmann och C. Paufler, "Exact solution of a 1D quantum many-body system with momentum-dependent interactions," Journal of Physics A : Mathematical and General, vol. 37, no. 16, s. 4579-4592, 2004.

[50]

E. Langmann, R. J. Szabo och K. Zarembo, "Exact solution of quantum field theory on noncommutative phase spaces," Journal of High Energy Physics (JHEP), no. 1, s. 017, 2004.

[51]

E. Langmann, "Exactly solvable models for 2D interacting fermions," Journal of Physics A : Mathematical and General, vol. 37, no. 2, s. 407-423, 2004.

[52]

E. Langmann, "Second quantization of the elliptic Calogero-Sutherland model," Communications in Mathematical Physics, vol. 247, no. 2, s. 321-351, 2004.

[53]

E. Langmann, R. J. Szabo och K. Zarembo, "Exact solution of noncommutative field theory in background magnetic fields," Physics Letters B, vol. 569, no. 02-jan, s. 95-101, 2003.

[54]

E. Langmann, "Interacting fermions on non-commutative spaces: Exactly solvable quantum field theories in 2n+1 dimensions," Nuclear Physics B, vol. 654, no. 3, s. 404-426, 2003.

[55]

E. Langmann och R. J. Szabo, "Duality in scalar field theory on noncommutative phase spaces," Physics Letters B, vol. 533, no. 02-jan, s. 168-177, 2002.

[56]

E. Langmann, "Algorithms to solve the (quantum) Sutherland model," Journal of Mathematical Physics, vol. 42, no. 9, s. 4148-4157, 2001.

[57]

E. Langmann, J. Mickelsson och S. Rydh, "Anomalies and Schwinger terms in NCG field theory models," Journal of Mathematical Physics, vol. 42, no. 10, s. 4779-4801, 2001.

[58]

E. Langmann, "Generalized Yang-Mills actions from Dirac operator determinants," Journal of Mathematical Physics, vol. 42, no. 11, s. 5238-5256, 2001.

[59]

E. Langmann och R. J. Szabo, "Teleparallel gravity and dimensional reductions of noncommutative gauge theory," Physical Review D. Particles and fields, vol. 6410, no. 10, 2001.

[60]

E. Langmann, "Anyons and the elliptic Calogero-Sutherland model," Letters in Mathematical Physics, vol. 54, no. 4, s. 279-289, 2000.

[61]

H. Grosse och E. Langmann, "Chiral Schwinger models without gauge anomalies," Nuclear Physics B, vol. 587, no. 03-jan, s. 568-584, 2000.

[62]

J. Blom och E. Langmann, "Finding and solving Calogero-Moser type systems using Yang-Mills gauge theories," Nuclear Physics B, vol. 563, s. 506-532, 1999.

[63]

A. L. Carey och E. Langmann, "Loop groups, anyons and the Calogero-Sutherland model," Communications in Mathematical Physics, vol. 201, s. 1-34, 1999.

[64]

E. Langmann och A. Niemi, "Towards a string representation of infrared SU(2) Yang-Mills theory," Physics Letters B, vol. 463, s. 252-256, 1999.

[65]

E. Langmann et al., "Mean field analysis of a model for superconductivity in an anti-ferromagnetic background," Physica. C, Superconductivity, vol. 296, s. 119-136, 1998.

[66]

E. Langmann et al., "Mean field analysis of a model for superconductivity in an anti-ferromagnetic background," Physica. C, Superconductivity, vol. 296, no. 1-2, s. 119-136, 1998.

[67]

J. Blom och E. Langmann, "Novel integrable spin-particle models from gauge theories on a cylinder," Physics Letters B, vol. 429, s. 336-342, 1998.

[68]

E. Langmann, "Descent equations of Yang-Mills anomalies in noncommutative geometry," Journal of Geometry and Physics, s. 259-279, 1997.

[69]

E. Langmann och M. Wallin, "Mean field approach to antiferromagnetic domains in the doped Hubbard model," Physical Review B Condensed Matter, s. 9439-9451, 1997.

[70]

H. Grosse, E. Langmann och E. Raschhofer, "The Luttinger-Schwinger Model," Annals of Physics, vol. 253, s. 310-331, 1997.

[71]

E. Langmann och J. Mickelsson, "Elementary Derivation of the Chiral Anomaly," Letters in Mathematical Physics, vol. 6, s. 45-54, 1996.

[72]

E. Langmann, "Quantum Gauge Theories and Noncommutative Geometry," Acta Physica Polonica B, vol. 27, s. 2477-2496, 1996.

[73]

E. Langmann och J. Mickelsson, "Scattering matrix in external field problems," Journal of Mathematical Physics, vol. 37, s. 3933-3953, 1996.

[74]

E. Langmann, "Non-commutative Integration Calculus," Journal of Mathematical Physics, vol. 36, s. 3822-3835, 1995.

[75]

E. Langmann, "(3+1)-Dimensional Schwinger Terms and Non-commutative Geometry," Physics Letters B, vol. 338, s. 241-248, 1994.

[76]

E. Langmann, "Cocycles for Boson and Fermion Bogoliubov Transformations," Journal of Mathematical Physics, vol. 35, s. 96-112, 1994.

[77]

E. Langmann, M. Salmhofer och A. Kovner, "Consistent axial-like gauge fixing on hypertori," Modern Physics Letters A, vol. 9, s. 2913-2926, 1994.

[78]

E. Langmann, "Fermion Current Algebras and Schwinger Terms in 3+1 Dimensions," Communications in Mathematical Physics, vol. 162, s. 1-32, 1994.

[79]

E. Langmann och G. W. Semenoff, "QCD(1+1) with massless quarks and gauge covariant Sugawara construction," Physics Letters B, vol. 341, s. 195-204, 1994.

[80]

E. Langmann och G. W. Semenoff, "Gribov ambiguity and non-trivial vacuum structure of gauge theories on a cylinder," Physics Letters B, vol. 303, s. 303-307, 1993.

[81]

M. Diamantini et al., "SU (N) antiferromagnets and strongly coupled QED: effective field theory for Josephson junctions arrays," Nuclear physics B, Proceedings supplements, vol. 33, s. 192-208, 1993.

[82]

H. Grosse och E. Langmann, "Supersymmetry breaking and the Jaynes-Cummings model," Physics Letters A, vol. 176, no. 5, s. 307-312, 1993.

[83]

M. Dobroliubov, E. Langmann och P. Stamp, "The Superfluidity and Experimental Properties of Odd-Energy-Gap Superconductors," Europhysics letters, vol. 26, no. 2, 1993.

[84]

H. Grosse och E. Langmann, "A superversion of quasifree second quantization. I. Charged particles," Journal of Mathematical Physics, vol. 3, no. 3, s. 1032-1046, 1992.

[85]

E. Langmann, "Fermi-surface harmonics in the theory of the upper critical field," Physical Review B Condensed Matter, vol. 46, no. 14, s. 9104, 1992.

[86]

E. Langmann och G. W. Semenoff, "Gauge Theories on a Cylinder," Physics Letters B, vol. 296, s. 117-120, 1992.

[87]

E. Langmann och G. W. Semenoff, "Strong coupling gauge theory, quantum spin systems and the spontaneous breaking of chiral symmetry," Physics Letters B, vol. 297, s. 175-180, 1992.

[88]

H. Grosse och E. Langmann, "The geometric phase and the Schwinger term in some models," International Journal of Modern Physics A, vol. 7, no. 21, s. 5045-5083, 1992.

[89]

H. Grosse och E. Langmann, "On current superalgebras and super-Schwinger terms," Letters in Mathematical Physics, no. 1, s. 69-76, 1991.

[90]

E. Langmann, "On the upper critical field of anisotropic superconductors," Physica. C, Superconductivity, vol. 73, s. 347-356, 1991.

[91]

E. Langmann, "Bc2(T) of anisotropic systems: some explicit results," Physica B: Physics of Condensed Matter, vol. 65, s. 1061-1062, 1990.

[92]

W. Pint, E. Langmann och E. Schachinger, "The critical temperature of superconductors with a cylinder symmetrical Fermi surface," Physica. C, Superconductivity, vol. 157, no. 3, s. 415-424, 1989.

[93]

E. Langmann, "Theory of the upper critical magnetic field without local approximation," Physica. C, Superconductivity, vol. 59, s. 561-569, 1989.

Konferensbidrag

[94]

E. Langmann, "Non-commutative geometry and exactly solvable systems," i INTERNATIONAL CONFERENCE ON NONCOMMUTATIVE GEOMETRY AND PHYSICS, 2008.

[95]

E. Langmann, "A method to derive explicit formulas for an elliptic generalization of the Jack polynomials," i Jack, Hall-Littlewood and Macdonald Polynomials, 2006, s. 257-270.

[96]

E. Langmann, "An explicit solution of the (quantum) elliptic Calogero-Sutherland model," i SPT 2004 : SYMMETRY AND PERTURBATION THEORY, 2005, s. 159-174.

[97]

E. Langmann, "Conformal field theory and the solution of the (quantum) elliptic Calogero-Sutherland system," i Noncommutative Geometry and Representation Theory in Mathematical Physics, 2005, s. 223-240.

Icke refereegranskade

Kapitel i böcker

[98]

E. Langmann, "Bosons and Fermions in External Fields," i Encyclopedia of Mathematical Physics: Five-Volume Set, : Elsevier BV, 2006, s. 1-1.

[99]

E. Langmann, "Bosons and Fermions in External Fields," i Encyclopedia of Mathematical Physics: Five-Volume Set, : Elsevier Inc., 2004, s. 318-326.

Övriga

[100]

M. Hallnäs och E. Langmann, "Quantum Calogero-Sutherland type models and generalised classical polynomials," (Manuskript).

[101]

F. Atai och E. Langmann, "Deformed Calogero-Sutherland model and fractional Quantum Hall effect," (Manuskript).

[102]

E. Langmann och P. Moosavi, "Diffusive Heat Waves in Random Conformal Field Theory," (Manuskript).

[103]

F. Atai och E. Langmann, "Series solutions of the non-stationary Heun equation," (Manuskript).

[104]

F. Atai et al., "Variational orthogonalization," (Manuskript).

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