Publications by Egor Babaev
Refereegranskade
Artiklar
[1]
I. Shipulin et al., "Calorimetric evidence for two phase transitions in Calorimetric evidence for two phase transitions in Ba1−xKxFe2As2 with fermion pairing and quadrupling states," Nature Communications, vol. 14, no. 1, 2023.
[2]
J. Garaud et al., "Counterpart of the Chandrasekhar-Kendall state in noncentrosymmetric superconductors," Physical Review B, vol. 108, no. 1, 2023.
[3]
A. Benfenati, M. Barkman and E. Babaev, "Demonstration of CP2 skyrmions in three-band superconductors by self-consistent solutions of a Bogoliubov-de Gennes model," Physical Review B, vol. 107, no. 9, 2023.
[4]
C. Halcrow and E. Babaev, "Ferroelectric domain wall clusters in perfectly screened barium titanate type systems," Physical Review B, vol. 108, no. 17, 2023.
[5]
A. Samoilenka and E. Babaev, "Ground-state fractal crystals," Physical Review B, vol. 107, no. 18, 2023.
[6]
M. Speight, T. Winyard and E. Babaev, "Magnetic Response of Nematic Superconductors : Skyrmion Stripes and Their Signatures in Muon Spin Relaxation Experiments," Physical Review Letters, vol. 130, no. 22, 2023.
[7]
A. Talkachov, A. Samoilenka and E. Babaev, "Microscopic study of boundary superconducting states on a honeycomb lattice," Physical Review B, vol. 108, no. 13, 2023.
[8]
I. Maccari, J. Carlstroem and E. Babaev, "Prediction of time-reversal-symmetry breaking fermionic quadrupling condensate in twisted bilayer graphene," Physical Review B, vol. 107, no. 6, 2023.
[9]
C. Halcrow and E. Babaev, "Stable Kink-Kink and Metastable Kink-Antikink Solutions," SIGMA. Symmetry, Integrability and Geometry, vol. 19, 2023.
[10]
Y. Iguchi et al., "Superconducting vortices carrying a temperaturedependent fraction of the flux quantum," Science, vol. 380, no. 6651, pp. 1244-1247, 2023.
[11]
M. Speight, T. Winyard and E. Babaev, "Symmetries, length scales, magnetic response, and skyrmion chains in nematic superconductors," Physical Review B, vol. 107, no. 19, 2023.
[12]
A. Talkachov and E. Babaev, "Wave functions and edge states in rectangular honeycomb lattices revisited : Nanoflakes, armchair and zigzag nanoribbons, and nanotubes," Physical Review B, vol. 107, no. 4, 2023.
[13]
A. Syrwid, E. Blomquist and E. Babaev, "Drag-induced dynamical formation of dark solitons in Bose mixture on a ring," Physical Review Research, vol. 4, no. 4, 2022.
[14]
J. Garaud and E. Babaev, "Effective Model and Magnetic Properties of the Resistive Electron Quadrupling State," Physical Review Letters, vol. 129, no. 8, 2022.
[15]
I. Maccari and E. Babaev, "Effects of intercomponent couplings on the appearance of time-reversal symmetry breaking fermion-quadrupling states in two-component London models," Physical Review B, vol. 105, no. 21, 2022.
[16]
M. Barkman et al., "Elevated critical temperature at BCS superconductor-band insulator interfaces," Physical Review B, vol. 105, no. 22, 2022.
[17]
A. Benfenati and E. Babaev, "Spontaneous edge and corner currents in s+is superconductors and time reversal symmetry breaking surface states," Physical Review B, vol. 105, no. 13, pp. 134518, 2022.
[18]
A. Maiani, A. Benfenati and E. Babaev, "Vortex nucleation barriers and stable fractional vortices near boundaries in multicomponent superconductors," Physical Review B, vol. 105, no. 22, 2022.
[19]
[20]
E. Blomquist, A. Syrwid and E. Babaev, "Borromean Supercounterfluidity," Physical Review Letters, vol. 127, no. 25, 2021.
[21]
A. Benfenati, A. Samoilenka and E. Babaev, "Boundary effects in two-band superconductors," Physical Review B, vol. 103, no. 14, 2021.
[22]
A. Mendoza-Coto et al., "Cluster self-assembly condition for arbitrary interaction potentials," Soft Matter, vol. 17, no. 4, pp. 915-923, 2021.
[23]
D. Weston and E. Babaev, "Composite order in SU(N) theories coupled to an Abelian gauge field," Physical Review B, vol. 104, no. 7, 2021.
[24]
A. Syrwid, E. Blomquist and E. Babaev, "Dissipationless Vector Drag—Superfluid Spin Hall Effect," Physical Review Letters, vol. 127, 2021.
[25]
H. H. Haugen et al., "First-order superconducting phase transition in a chiral p plus ip system," Physical Review B, vol. 104, no. 10, 2021.
[26]
M. Speight et al., "Magnetic field behavior in s plus is and s plus id superconductors : Twisting of applied and spontaneous fields," Physical Review B, vol. 104, no. 17, 2021.
[27]
A. Samoilenka and E. Babaev, "Microscopic derivation of superconductor-insulator boundary conditions for Ginzburg-Landau theory revisited : Enhanced superconductivity at boundaries with and without magnetic field," Physical Review B, vol. 103, no. 22, 2021.
[28]
W. Wang et al., "Pinning effects in a two-dimensional cluster glass," Physical Review B, vol. 104, no. 14, 2021.
[29]
F. N. Rybakov and E. Babaev, "The absence of superconductivity in the next-to-leading order Ginzburg-Landau functional for Bardeen-Cooper-Schrieffer superconductor," Journal of Mathematical Physics, vol. 62, no. 12, pp. 121901, 2021.
[30]
F. N. Krohg et al., "Thermal fluctuations and vortex lattice structures in chiral p-wave superconductors : Robustness of double-quanta vortices," Physical Review B, vol. 103, no. 21, 2021.
[31]
A. Samoilenka and E. Babaev, "Boundary states with elevated critical temperatures in Bardeen-Cooper-Schrieffer superconductors," Physical Review B, vol. 101, no. 13, 2020.
[32]
P. K. Biswas et al., "Coexistence of type-I and type-II superconductivity signatures in ZrB12 probed by muon spin rotation measurements," Physical Review B, vol. 102, no. 14, 2020.
[33]
A. Benfenati et al., "Magnetic signatures of domain walls in s plus is and s plus id superconductors : Observability and what that can tell us about the superconducting order parameter," Physical Review B, vol. 101, no. 5, 2020.
[34]
A. Samoilenka et al., "Pair-density-wave superconductivity of faces, edges, and vertices in systems with imbalanced fermions," Physical Review B, vol. 101, no. 5, 2020.
[35]
M. Barkman et al., "Ring solitons and soliton sacks in imbalanced fermionic systems," Physical Review Research, vol. 2, no. 4, 2020.
[36]
A. Samoilenka and E. Babaev, "Spiral magnetic field and bound states of vortices in noncentrosymmetric superconductors," Physical Review B, vol. 102, no. 18, 2020.
[37]
A. Samoilenka, F. N. Rybakov and E. Babaev, "Synthetic nuclear Skyrme matter in imbalanced Fermi superfluids with a multicomponent order parameter," Physical Review A: covering atomic, molecular, and optical physics and quantum information, vol. 101, no. 1, 2020.
[38]
A. Vargunin, M. A. Silaev and E. Babaev, "Unusual resistive states of multiband superconductors in the effective field theory approach," Europhysics letters, vol. 130, no. 1, 2020.
[39]
A. Benfenati et al., "Vortex nucleation barrier in superconductors beyond the Bean-Livingston approximation : A numerical approach for the sphaleron problem in a gauge theory," Physical Review B, vol. 101, no. 22, 2020.
[40]
M. Barkman, A. A. Zyuzin and E. Babaev, "Antichiral and nematicity-wave superconductivity," Physical Review B, vol. 99, no. 22, 2019.
[41]
M. Speight, T. Winyard and E. Babaev, "Chiral p-wave superconductors have complex coherence and magnetic field penetration lengths," Physical Review B, vol. 100, no. 17, 2019.
[42]
T. Winyard, M. Silaev and E. Babaev, "Hierarchies of length-scale based typology in anisotropic U(1) s-wave multiband superconductors," Physical Review B, vol. 99, no. 6, 2019.
[43]
W. Wang et al., "Melting of a two-dimensional monodisperse cluster crystal to a cluster liquid," Physical review. E, vol. 99, no. 4, 2019.
[44]
R. Diaz-Mendez et al., "Phase-change switching in 2D via soft interactions," Soft Matter, vol. 15, no. 3, pp. 355-358, 2019.
[45]
W. Wang, P. G. Kevrekidis and E. Babaev, "Ring dark solitons in three-dimensional Bose-Einstein condensates," Physical Review A: covering atomic, molecular, and optical physics and quantum information, vol. 100, no. 5, 2019.
[46]
T. Winyard, M. Silaev and E. Babaev, "Skyrmion formation due to unconventional magnetic modes in anisotropic multiband superconductors," Physical Review B, vol. 99, no. 2, 2019.
[47]
J. D. S. Bommer et al., "Spin-Orbit Protection of Induced Superconductivity in Majorana Nanowires," Physical Review Letters, vol. 122, no. 18, 2019.
[48]
F. N. Rybakov, J. Garaud and E. Babaev, "Stable Hopf-Skyrme topological excitations in the superconducting state," Physical Review B, vol. 100, no. 9, 2019.
[49]
M. Barkman, A. Samoilenka and E. Babaev, "Surface Pair-Density-Wave Superconducting and Superfluid States," Physical Review Letters, vol. 122, no. 16, 2019.
[50]
J. Garaud et al., "Field-induced coexistence of s(++) and s(+/-) superconducting states in dirty multiband superconductors," Physical Review B, vol. 97, no. 5, 2018.
[51]
M. Silaev, T. Winyard and E. Babaev, "Non-London electrodynamics in a multiband London model : Anisotropy-induced nonlocalities and multiple magnetic field penetration lengths," Physical Review B, vol. 97, no. 17, 2018.
[52]
J. Garaud et al., "Properties of dirty two-band superconductors with repulsive interband interaction : Normal modes, length scales, vortices, and magnetic response," Physical Review B, vol. 98, no. 1, 2018.
[53]
K. Sellin and E. Babaev, "Superfluid drag in the two-component Bose-Hubbard model," Physical Review B, vol. 97, no. 9, 2018.
[54]
J. Garaud, M. Silaev and E. Babaev, "Change of the vortex core structure in two-band superconductors at the impurity-scattering-driven s(+/-)/s(++) crossover," Physical Review B, vol. 96, no. 14, 2017.
[55]
R. Diaz-Mendez et al., "Glass Transitions in Monodisperse Cluster-Forming Ensembles : Vortex Matter in Type-1.5 Superconductors," Physical Review Letters, vol. 118, no. 6, 2017.
[56]
J. Garaud, M. Silaev and E. Babaev, "Microscopically derived multi-component Ginzburg-Landau theories for s plus is superconducting state," Physica. C, Superconductivity, vol. 533, pp. 63-73, 2017.
[57]
A. Zyuzin, J. Garaud and E. Babaev, "Nematic Skyrmions in Odd-Parity Superconductors," Physical Review Letters, vol. 119, no. 16, 2017.
[58]
M. Silaev, J. Garaud and E. Babaev, "Phase diagram of dirty two-band superconductors and observability of impurity-induced s plus i s state," Physical Review B, vol. 95, no. 2, 2017.
[59]
Q. Meng et al., "Phase diagrams of vortex matter with multi-scale inter-vortex interactions in layered superconductors," Journal of Physics : Condensed Matter, vol. 29, no. 3, 2017.
[60]
E. Babaev et al., "Type-1.5 superconductivity in multicomponent systems," Physica. C, Superconductivity, vol. 533, pp. 20-35, 2017.
[61]
K. A. H. Sellin and E. Babaev, "First-order phase transition and tricritical point in multiband U(1) London superconductors," PHYSICAL REVIEW B, vol. 93, no. 5, 2016.
[62]
J. Garaud et al., "Lattices of double-quanta vortices and chirality inversion in p(x) + i p(y) superconductors," Physical Review B, vol. 94, no. 10, 2016.
[63]
J. Garaud, M. Silaev and E. Babaev, "Thermoelectric Signatures of Time-Reversal Symmetry Breaking States in Multiband Superconductors," Physical Review Letters, vol. 116, no. 9, 2016.
[64]
P. N. Galteland, E. Babaev and A. Sudbo, "Fluctuation effects in rotating Bose-Einstein condensates with broken SU(2) and U(1) x U(1) symmetries in the presence of intercomponent density-density interactions," Physical Review A. Atomic, Molecular, and Optical Physics, vol. 91, no. 1, pp. 013605, 2015.
[65]
H. Meier, E. Babaev and M. Wallin, "Fluctuation-induced first order phase transitions in type-1.5 superconductors in zero external field," Physical Review B. Condensed Matter and Materials Physics, vol. 91, no. 9, 2015.
[66]
J. Garaud and E. Babaev, "Properties of skyrmions and multi-quanta vortices in chiral p-wave superconductors," Scientific Reports, vol. 5, 2015.
[67]
J. Carlström and E. Babaev, "Spontaneous breakdown of time-reversal symmetry induced by thermal fluctuations," Physical Review B. Condensed Matter and Materials Physics, vol. 91, no. 14, 2015.
[68]
P. N. Galteland, E. Babaev and A. Sudbo, "Thermal remixing of phase-separated states in two-component bosonic condensates," New Journal of Physics, vol. 17, 2015.
[69]
M. Silaev, J. Garaud and E. Babaev, "Unconventional thermoelectric effect in superconductors that break time-reversal symmetry," Physical Review B. Condensed Matter and Materials Physics, vol. 92, no. 17, 2015.
[70]
J. Garaud and E. Babaev, "Vortex chains due to nonpairwise interactions and field-induced phase transitions between states with different broken symmetry in superconductors with competing order parameters," Physical Review B. Condensed Matter and Materials Physics, vol. 91, no. 1, pp. 014510, 2015.
[71]
J. Garaud and E. Babaev, "Domain walls and their experimental signatures in s + i s superconductors," Physical Review Letters, vol. 112, no. 1, pp. 017003, 2014.
[72]
J. Carlström and E. Babaev, "Entropy- and Flow-Induced Superfluid States," Physical Review Letters, vol. 113, no. 5, pp. 055301, 2014.
[73]
Q. Meng et al., "Honeycomb, square, and kagome vortex lattices in superconducting systems with multiscale intervortex interactions," Physical Review B. Condensed Matter and Materials Physics, vol. 90, no. 2, pp. 020509, 2014.
[74]
D. F. Agterberg, E. Babaev and J. Garaud, "Microscopic prediction of skyrmion lattice state in clean interface superconductors," Physical Review B. Condensed Matter and Materials Physics, vol. 90, no. 6, pp. 064509, 2014.
[75]
S. J. Ray et al., "Muon-spin rotation measurements of the vortex state in Sr2RuO4 : Type-1.5 superconductivity, vortex clustering, and a crossover from a triangular to a square vortex lattice," Physical Review B. Condensed Matter and Materials Physics, vol. 89, no. 9, pp. 094504, 2014.
[76]
T. A. Bojesen, E. Babaev and A. Sudbø, "Phase transitions and anomalous normal state in superconductors with broken time-reversal symmetry," Physical Review B. Condensed Matter and Materials Physics, vol. 89, no. 10, pp. 104509, 2014.
[77]
E. Babaev and B. Svistunov, "Rotational response of superconductors : Magnetorotational isomorphism and rotation-induced vortex lattice," Physical Review B. Condensed Matter and Materials Physics, vol. 89, no. 10, pp. 104501, 2014.
[78]
J. Garaud et al., "Skyrmions induced by dissipationless drag in U(1)xU(1) superconductors," Physical Review B. Condensed Matter and Materials Physics, vol. 89, no. 10, pp. 104508, 2014.
[79]
J. Garaud and E. Babaev, "Topological defects in mixtures of superconducting condensates with different charges," Physical Review B. Condensed Matter and Materials Physics, vol. 89, no. 21, pp. 214507, 2014.
[80]
J. Garaud et al., "Chiral CP2 skyrmions in three-band superconductors," Physical Review B. Condensed Matter and Materials Physics, vol. 87, no. 1, pp. 014507, 2013.
[81]
D. Weston and E. Babaev, "Classification of ground states and normal modes for phase-frustrated multicomponent superconductors," Physical Review B. Condensed Matter and Materials Physics, vol. 88, no. 21, pp. 214507, 2013.
[82]
E. V. Herland et al., "Freezing of an unconventional two-dimensional plasma," Physical Review B. Condensed Matter and Materials Physics, vol. 87, no. 7, pp. 075117, 2013.
[83]
C. N. Varney et al., "Hierarchical structure foramtion in layered superconducting systems with multi-scale inter-vortex interactions," Journal of Physics : Condensed Matter, vol. 25, no. 41, pp. 415702, 2013.
[84]
E. V. Herland et al., "Phase structure and phase transitions in a three-dimensional SU(2) superconductor," Physical Review B. Condensed Matter and Materials Physics, vol. 87, no. 13, pp. 134503, 2013.
[85]
K. A. H. Sellin and E. Babaev, "Stripe, gossamer, and glassy phases in systems with strong nonpairwise interactions," Physical Review E. Statistical, Nonlinear, and Soft Matter Physics, vol. 88, no. 4, pp. 042305, 2013.
[86]
T. A. Bojesen, E. Babaev and A. Sudbø, "Time reversal symmetry breakdown in normal and superconducting states in frustrated three-band systems," Physical Review B. Condensed Matter and Materials Physics, vol. 88, no. 22, pp. 220511, 2013.
[87]
E. Babaev and M. Silaev, "Type-1.5 Superconductivity in Multiband and Other Multicomponent Systems," Journal of Superconductivity and Novel Magnetism, vol. 26, no. 5, pp. 2045-2055, 2013.
[88]
M. Silaev and E. Babaev, "Unusual mechanism of vortex viscosity generated by mixed normal modes in superconductors with broken time reversal symmetry," Physical Review B. Condensed Matter and Materials Physics, vol. 88, no. 22, pp. 220504, 2013.
[89]
M. Silaev and E. Babaev, "Microscopic derivation of two-component Ginzburg-Landau model and conditions of its applicability in two-band systems," Physical Review B. Condensed Matter and Materials Physics, vol. 85, no. 13, pp. 134514, 2012.
[90]
E. V. Herland et al., "Screening properties and phase transitions in unconventional plasmas for Ising-type quantum Hall states," Physical Review B. Condensed Matter and Materials Physics, vol. 85, no. 2, pp. 024520, 2012.
[91]
J. Garaud and E. Babaev, "Skyrmionic state and stable half-quantum vortices in chiral p-wave superconductors," Physical Review B. Condensed Matter and Materials Physics, vol. 86, no. 6, pp. 060514, 2012.
[92]
E. Babaev et al., "Type-1.5 superconductivity in multiband systems : Magnetic response, broken symmetries and microscopic theory - A brief overview," Physica. C, Superconductivity, vol. 479, pp. 2-14, 2012.
[93]
J. Garaud, D. F. Agterberg and E. Babaev, "Vortex coalescence and type-1.5 superconductivity in Sr2RuO4," Physical Review B. Condensed Matter and Materials Physics, vol. 86, no. 6, pp. 060513, 2012.
[94]
J. Carlström, J. Garaud and E. Babaev, "Length scales, collective modes, and type-1.5 regimes in three-band superconductors," Physical Review B. Condensed Matter and Materials Physics, vol. 84, no. 13, pp. 134518, 2011.
[95]
M. Silaev and E. Babaev, "Microscopic theory of type-1.5 superconductivity in multiband systems," Physical Review B. Condensed Matter and Materials Physics, vol. 84, no. 9, pp. 094515, 2011.
[96]
J. Carlström, J. Garaud and E. Babaev, "Semi-Meissner state and nonpairwise intervortex interactions in type-1.5 superconductors," Physical Review B. Condensed Matter and Materials Physics, vol. 84, no. 13, pp. 134515, 2011.
[97]
J. Garaud, J. Carlström and E. Babaev, "Topological Solitons in Three-Band Superconductors with Broken Time Reversal Symmetry," Physical Review Letters, vol. 107, no. 19, pp. 197001, 2011.
[98]
J. Carlström, E. Babaev and M. Speight, "Type-1.5 superconductivity in multiband systems : Effects of interband couplings," Physical Review B. Condensed Matter and Materials Physics, vol. 83, no. 17, pp. 174509, 2011.
[99]
E. V. Herland, E. Babaev and A. Sudbo, "Phase transitions in a three dimensional U(1)xU(1) lattice London superconductor : Metallic superfluid and charge-4e superconducting states," Physical Review B. Condensed Matter and Materials Physics, vol. 82, no. 13, pp. 134511, 2010.
[100]
E. Babaev, J. Carlström and M. Speight, "Type-1.5 Superconducting State from an Intrinsic Proximity Effect in Two-Band Superconductors," Physical Review Letters, vol. 105, no. 6, pp. 067003, 2010.
[101]
E. Babaev and J. Carlström, "Type-1.5 superconductivity in two-band systems," Physica. C, Superconductivity, vol. 470, no. 19, pp. 717-721, 2010.
[102]
E. Babaev, J. Jaykka and M. Speight, "Magnetic Field Delocalization and Flux Inversion in Fractional Vortices in Two-Component Superconductors," Physical Review Letters, vol. 103, no. 23, 2009.
[103]
E. Babaev, "Non-Meissner electrodynamics and knotted solitons in two-component superconductors," Physical Review B. Condensed Matter and Materials Physics, vol. 79, no. 10, 2009.
[104]
E. Babaev, "Unconventional Rotational Responses of Hadronic Superfluids in a Neutron Star Caused by Strong Entrainment and a Sigma(-) Hyperon Gap," Physical Review Letters, vol. 103, no. 23, 2009.
[105]
S. Kragset, E. Babaev and A. Sudbo, "Effects of boundaries and density inhomogeneity on states of vortex matter in Bose-Einstein condensates at finite temperature," Physical Review A. Atomic, Molecular, and Optical Physics, vol. 77, no. 4, 2008.
[106]
E. K. Dahl, E. Babaev and A. Sudbo, "Hidden vortex lattices in a thermally paired superfluid," Physical Review B. Condensed Matter and Materials Physics, vol. 78, no. 14, 2008.
[107]
E. K. Dahl et al., "Preemptive vortex-loop proliferation in multicomponent interacting Bose-Einstein condensates," Physical Review B. Condensed Matter and Materials Physics, vol. 77, no. 14, 2008.
[108]
E. K. Dahl, E. Babaev and A. Sudbo, "Unusual States of Vortex Matter in Mixtures of Bose-Einstein Condensates on Rotating Optical Lattices," Physical Review Letters, vol. 101, no. 25, 2008.
[109]
E. Babaev, "Vortex matter, effective magnetic charges, and generalizations of the dipolar superfluidity concept in layered systems," Physical Review B. Condensed Matter and Materials Physics, vol. 77, no. 5, 2008.
[110]
E. Babaev and N. W. Ashcroft, "Violation of the London law and Onsager-Feynman quantization in multicomponent superconductors," Nature Physics, vol. 3, no. 8, pp. 530-533, 2007.
[111]
S. Kragset, E. Babaev and A. Sudbo, "Thermal fluctuations of vortex matter in trapped Bose-Einstein condensates," Physical Review Letters, vol. 97, no. 17, 2006.
[112]
J. Smiseth et al., "Field- and temperature-induced topological phase transitions in the three-dimensional N-component London superconductor," Physical Review B. Condensed Matter and Materials Physics, vol. 71, no. 21, 2005.
[113]
E. Babaev, "Fractional-flux vortices and spin superfluidity in triplet superconductors," Physical Review Letters, vol. 94, no. 13, 2005.
[114]
E. Babaev, A. Sudbo and N. W. Ashcroft, "Observability of a projected new state of matter : A metallic superfluid," Physical Review Letters, vol. 95, no. 10, 2005.
[115]
E. Smorgrav et al., "Observation of a metallic superfluid in a numerical experiment," Physical Review Letters, vol. 95, no. 13, 2005.
[116]
E. Babaev and M. Speight, "Semi-Meissner state and neither type-I nor type-II superconductivity in multicomponent superconductors," Physical Review B. Condensed Matter and Materials Physics, vol. 72, no. 18, 2005.
[117]
E. Smorgrav et al., "Vortex sublattice melting in a two-component superconductor," Physical Review Letters, vol. 94, no. 9, 2005.
[118]
E. Babaev, A. Sudbo and N. W. Ashcroft, "A superconductor to superfluid phase transition in liquid metallic hydrogen," Nature, vol. 431, no. 7009, pp. 666-668, 2004.
[119]
E. Babaev, "Andreev-Bashkin effect and knot solitons in an interacting mixture of a charged and a neutral superfluid with possible relevance for neutron stars," Physical Review D. Particles and fields, vol. 70, no. 4, 2004.
[120]
E. Babaev, "Phase diagram of planar U(l) x U(l) superconductor - Condensation of vortices with fractional flux and a superfluid state," Nuclear Physics B, vol. 686, no. 3, pp. 397-412, 2004.
[121]
E. Babaev, "Vortices carrying an arbitrary fraction of magnetic flux quantum, neutral superfluidity and knotted solitons in two-gap Ginzburg-Landau model," Physica. C, Superconductivity, vol. 404, no. 04-jan, pp. 39-43, 2004.
[122]
E. Babaev, "Dual neutral variables and knot solitons in triplet superconductors," Physical Review Letters, vol. 88, no. 17, 2002.
[123]
E. Babaev, L. D. Faddeev and A. J. Niemi, "Hidden symmetry and knot solitons in a charged two-condensate Bose system," Physical Review B. Condensed Matter and Materials Physics, vol. 65, no. 10, 2002.
[124]
E. Babaev, "Vortices with fractional flux in two-gap superconductors and in extended Faddeev model," Physical Review Letters, vol. 89, no. 6, 2002.
[125]
E. Babaev, "Characteristic length scales and formation of vortices in the Ginzburg-Landau-Higgs model in the presence of a uniform background charge," Physical Review B Condensed Matter, vol. 6317, no. 17, 2001.
[126]
E. Babaev, "Mass generation without symmetry breakdown in the chiral Gross-Neveu model at finite temperature and finite N in 2+1 dimensions," Physics Letters B, vol. 497, no. 04-mar, pp. 323-327, 2001.
[127]
E. Babaev, "Nonlinear sigma model approach for phase disorder transitions in chiral Gross-Neveu, Nambu-Jona-Lasinio models and strong-coupling superconductors," International Journal of Modern Physics A, vol. 16, no. 7, pp. 1175-1197, 2001.
[128]
E. Babaev, "Thermodynamics of the crossover from weak- to strong-coupling superconductivity," Physical Review B Condensed Matter, vol. 6318, no. 18, 2001.
[129]
E. Babaev, "Nonlinear sigma model approach for chiral fluctuations and symmetry breakdown in the Nambu-Jona-Lasinio model," Physical Review D. Particles and fields, vol. 6207, no. 7, 2000.
Icke refereegranskade
Artiklar
[130]
M. Barkman et al., "Comment on "Surface Pair-Density-Wave Superconducting and Superfluid States" Reply," Physical Review Letters, vol. 126, no. 17, 2021.
[131]
E. Babaev and M. Silaev, "Comment on "Ginzburg-Landau theory of two-band superconductors : Absence of type-1.5 superconductivity"," Physical Review B. Condensed Matter and Materials Physics, vol. 86, no. 1, pp. 016501, 2012.
Böcker
[132]
Kapitel i böcker
[133]
E. Babaev et al., "Type-1.5 superconductivity," in Superconductors at the Nanoscale: From Basic Research to Applications, : Walter de Gruyter GmbH, 2017, pp. 133-164.
Övriga
[134]
A. Talkachov, A. Samoilenka and E. Babaev, "A microscopic study of boundary superconducting states on a honeycomb lattice," (Manuscript).
[135]
[136]
K. A. H. Sellin and E. Babaev, "First order phase transition and tricritical point in multiband U(1) London superconductors," (Manuscript).
[137]
[138]
D. Weston, K. Sellin and E. Babaev, "Phase transitions in U(1)N lattice London models," (Manuscript).
[139]
J. Garaud et al., "Toroflux: A counterpart of the Chandrasekhar-Kendall state in noncentrosym- metric superconductors," (Manuscript).
[140]
D. Weston and E. Babaev, "Vortices and composite order in SU(N) theories coupled to Abelian gauge field," (Manuscript).
Senaste synkning med DiVA:
2024-05-05 02:08:34