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  • In: Physics Letters A. Unidade: IF

    Subjects: Física Nuclear, Condensado De Bose-einstein, Rubídio, Césio, Vórtices Dos Fluídos

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      KUMAR, R. Kishor; GAMMAL, Arnaldo; TOMIO, Lauro. Mass-imbalanced Bose-Einstein condensed mixtures in rotating perturbed trap. Physics Letters A, Amsterdam, Elsevier, v. 384, n. 22, 2020. Disponível em: < https://doi.org/10.1016/j.physleta.2020.126535 > DOI: 10.1016/j.physleta.2020.126535.
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      Kumar, R. K., Gammal, A., & Tomio, L. (2020). Mass-imbalanced Bose-Einstein condensed mixtures in rotating perturbed trap. Physics Letters A, 384( 22). doi:10.1016/j.physleta.2020.126535
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      Kumar RK, Gammal A, Tomio L. Mass-imbalanced Bose-Einstein condensed mixtures in rotating perturbed trap [Internet]. Physics Letters A. 2020 ; 384( 22):Available from: https://doi.org/10.1016/j.physleta.2020.126535
    • Vancouver

      Kumar RK, Gammal A, Tomio L. Mass-imbalanced Bose-Einstein condensed mixtures in rotating perturbed trap [Internet]. Physics Letters A. 2020 ; 384( 22):Available from: https://doi.org/10.1016/j.physleta.2020.126535
  • In: Journal of Physics B: Atomic, Molecular and Optical Physics. Unidade: IF

    Subjects: Condensado De Bose-einstein, Física Moderna

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      ABDULLAEV, Fatkhulla; GAMMAL, Arnaldo; KUMAR, Ramavarmaraja Kishor; TOMIO, Lauro. Faraday waves and droplets in quasi-one-dimensional Bose gas mixtures. Journal of Physics B: Atomic, Molecular and Optical Physics, Bristol, IOP Publishing, v. 52, n. 19, 2019. Disponível em: < https://doi-org.ez67.periodicos.capes.gov.br/10.1088/1361-6455/ab3ade > DOI: 10.1088/1361-6455/ab3ade.
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      Abdullaev, F., Gammal, A., Kumar, R. K., & Tomio, L. (2019). Faraday waves and droplets in quasi-one-dimensional Bose gas mixtures. Journal of Physics B: Atomic, Molecular and Optical Physics, 52( 19). doi:10.1088/1361-6455/ab3ade
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      Abdullaev F, Gammal A, Kumar RK, Tomio L. Faraday waves and droplets in quasi-one-dimensional Bose gas mixtures [Internet]. Journal of Physics B: Atomic, Molecular and Optical Physics. 2019 ; 52( 19):Available from: https://doi-org.ez67.periodicos.capes.gov.br/10.1088/1361-6455/ab3ade
    • Vancouver

      Abdullaev F, Gammal A, Kumar RK, Tomio L. Faraday waves and droplets in quasi-one-dimensional Bose gas mixtures [Internet]. Journal of Physics B: Atomic, Molecular and Optical Physics. 2019 ; 52( 19):Available from: https://doi-org.ez67.periodicos.capes.gov.br/10.1088/1361-6455/ab3ade
  • In: Journal of Low Temperature Physics. Unidade: IF

    Subjects: Condensado De Bose-einstein

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      KUMAR, Ramavarmaraja Kishor; CHAKRABARTI, B; GAMMAL, Arnaldo. Information entropy for a two-dimensional rotating Bose–Einstein Condensate. Journal of Low Temperature Physics, Berlin, Springer, v. 194, n. 1–2, p. 14–26, 2019. DOI: 10.1007/s10909-018-2051-8.
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      Kumar, R. K., Chakrabarti, B., & Gammal, A. (2019). Information entropy for a two-dimensional rotating Bose–Einstein Condensate. Journal of Low Temperature Physics, 194( 1–2), 14–26. doi:10.1007/s10909-018-2051-8
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      Kumar RK, Chakrabarti B, Gammal A. Information entropy for a two-dimensional rotating Bose–Einstein Condensate. Journal of Low Temperature Physics. 2019 ; 194( 1–2): 14–26.
    • Vancouver

      Kumar RK, Chakrabarti B, Gammal A. Information entropy for a two-dimensional rotating Bose–Einstein Condensate. Journal of Low Temperature Physics. 2019 ; 194( 1–2): 14–26.
  • In: Physical Review A. Unidade: IF

    Subjects: Condensado De Bose-einstein

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      KUMAR, Ramavarmaraja Kishor; TOMIO, Lauro; GAMMAL, Arnaldo. Spatial separation of rotating binary Bose-Einstein condensates by tuning the dipolar interactions. Physical Review A, New York, The Society, v. 99, p. 043606/1-043606/13, 2019. Disponível em: < https://doi.org/10.1016/j.physletb.2019.03.065 > DOI: 10.1103/PhysRevA.99.043606.
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      Kumar, R. K., Tomio, L., & Gammal, A. (2019). Spatial separation of rotating binary Bose-Einstein condensates by tuning the dipolar interactions. Physical Review A, 99, 043606/1-043606/13. doi:10.1103/PhysRevA.99.043606
    • NLM

      Kumar RK, Tomio L, Gammal A. Spatial separation of rotating binary Bose-Einstein condensates by tuning the dipolar interactions [Internet]. Physical Review A. 2019 ; 99 043606/1-043606/13.Available from: https://doi.org/10.1016/j.physletb.2019.03.065
    • Vancouver

      Kumar RK, Tomio L, Gammal A. Spatial separation of rotating binary Bose-Einstein condensates by tuning the dipolar interactions [Internet]. Physical Review A. 2019 ; 99 043606/1-043606/13.Available from: https://doi.org/10.1016/j.physletb.2019.03.065
  • Unidade: IF

    Subjects: Condensado De Bose-einstein

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      TOMIO, Lauro; KUMAR, R. K.; GAMMAL, Arnaldo. Dipolar condensed atomic mixtures and miscibility under rotation. [S.l: s.n.], 2019.Disponível em: .
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      Tomio, L., Kumar, R. K., & Gammal, A. (2019). Dipolar condensed atomic mixtures and miscibility under rotation. São Paulo. Recuperado de https://arxiv.org/abs/1911.02734
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      Tomio L, Kumar RK, Gammal A. Dipolar condensed atomic mixtures and miscibility under rotation [Internet]. 2019 ;Available from: https://arxiv.org/abs/1911.02734
    • Vancouver

      Tomio L, Kumar RK, Gammal A. Dipolar condensed atomic mixtures and miscibility under rotation [Internet]. 2019 ;Available from: https://arxiv.org/abs/1911.02734
  • Unidade: IF

    Subjects: Condensado De Bose-einstein

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      ANDRIATI, Alex V.; GAMMAL, Arnaldo. Superfluidity fraction of few bosons in an annular geometry in the presence of a rotating weak link. [S.l: s.n.], 2019.Disponível em: .
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      Andriati, A. V., & Gammal, A. (2019). Superfluidity fraction of few bosons in an annular geometry in the presence of a rotating weak link. São Paulo. Recuperado de https://arxiv.org/abs/1908.02351
    • NLM

      Andriati AV, Gammal A. Superfluidity fraction of few bosons in an annular geometry in the presence of a rotating weak link [Internet]. 2019 ;Available from: https://arxiv.org/abs/1908.02351
    • Vancouver

      Andriati AV, Gammal A. Superfluidity fraction of few bosons in an annular geometry in the presence of a rotating weak link [Internet]. 2019 ;Available from: https://arxiv.org/abs/1908.02351
  • In: Physical Review A. Unidade: IF

    Subjects: Física De Partículas

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      ANDRIATI, Alex Valerio; GAMMAL, Arnaldo. Superfluid fraction of few bosons in an annular geometry in the presence of a rotating weak link. Physical Review A, College Park, Maryland, American Physical Society, v. 100, p. 063625-8, 2019. DOI: 10.1103/PhysRevA.100.063625.
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      Andriati, A. V., & Gammal, A. (2019). Superfluid fraction of few bosons in an annular geometry in the presence of a rotating weak link. Physical Review A, 100, 063625-8. doi:10.1103/PhysRevA.100.063625
    • NLM

      Andriati AV, Gammal A. Superfluid fraction of few bosons in an annular geometry in the presence of a rotating weak link. Physical Review A. 2019 ; 100 063625-8.
    • Vancouver

      Andriati AV, Gammal A. Superfluid fraction of few bosons in an annular geometry in the presence of a rotating weak link. Physical Review A. 2019 ; 100 063625-8.
  • In: Physical Review A. Unidade: IF

    Subjects: Condensado De Bose-einstein

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      KUMAR, Ramavarmaraja Kishor; TOMIO, Lauro; GAMMAL, Arnaldo. Spatial separation of rotating binary Bose-Einstein condensates by tuning the dipolar interactions. Physical Review A, College Park, Maryland, American Physical Society, v. 99, p. 043606(13), 2019. DOI: 10.1103/PhysRevA.99.043606.
    • APA

      Kumar, R. K., Tomio, L., & Gammal, A. (2019). Spatial separation of rotating binary Bose-Einstein condensates by tuning the dipolar interactions. Physical Review A, 99, 043606(13). doi:10.1103/PhysRevA.99.043606
    • NLM

      Kumar RK, Tomio L, Gammal A. Spatial separation of rotating binary Bose-Einstein condensates by tuning the dipolar interactions. Physical Review A. 2019 ;99 043606(13).
    • Vancouver

      Kumar RK, Tomio L, Gammal A. Spatial separation of rotating binary Bose-Einstein condensates by tuning the dipolar interactions. Physical Review A. 2019 ;99 043606(13).
  • In: Scientific Reports. Unidades: IF, IFSC

    Subjects: Condensado De Bose-einstein

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      BERA, S.; CHAKRABARTI, B.; GAMMAL, Arnaldo; et al. Sorting fermionization from crystallization in many-boson wavefunctions. Scientific Reports, London, Nature, v. 9, p. 17873-1-17873-14, 2019. Disponível em: < https://doi.org/10.1038/s41598-019-53179-1 > DOI: 10.1038/s41598-019-53179-1.
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      Bera, S., Chakrabarti, B., Gammal, A., Tsatsos, M. C., Lekala, M. L., Chatterjee, B., et al. (2019). Sorting fermionization from crystallization in many-boson wavefunctions. Scientific Reports, 9, 17873-1-17873-14. doi:10.1038/s41598-019-53179-1
    • NLM

      Bera S, Chakrabarti B, Gammal A, Tsatsos MC, Lekala ML, Chatterjee B, Lévêque C, Lode .AUJ. Sorting fermionization from crystallization in many-boson wavefunctions [Internet]. Scientific Reports. 2019 ; 9 17873-1-17873-14.Available from: https://doi.org/10.1038/s41598-019-53179-1
    • Vancouver

      Bera S, Chakrabarti B, Gammal A, Tsatsos MC, Lekala ML, Chatterjee B, Lévêque C, Lode .AUJ. Sorting fermionization from crystallization in many-boson wavefunctions [Internet]. Scientific Reports. 2019 ; 9 17873-1-17873-14.Available from: https://doi.org/10.1038/s41598-019-53179-1
  • In: Quantum Reports. Unidade: IF

    Subjects: Física Nuclear, Condensado De Bose-einstein, Entropia, Sistema Quântico, Têmpera

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      ROY, Rhombik; CAMILLE, Leveque; LODE, Axel U. J.; GAMMAL, Arnaldo; CHAKRABARTI, Barnali. Fidelity and Entropy Production in Quench Dynamics of Interacting Bosons in an Optical Lattice. Quantum Reports, Basiléia, MDPI, v. 1, n. 2, p. 304-316, 2019. Disponível em: < https://doi.org/10.3390/quantum1020028 > DOI: 10.3390/quantum1020028.
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      Roy, R., Camille, L., Lode, A. U. J., Gammal, A., & Chakrabarti, B. (2019). Fidelity and Entropy Production in Quench Dynamics of Interacting Bosons in an Optical Lattice. Quantum Reports, 1( 2), 304-316. doi:10.3390/quantum1020028
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      Roy R, Camille L, Lode AUJ, Gammal A, Chakrabarti B. Fidelity and Entropy Production in Quench Dynamics of Interacting Bosons in an Optical Lattice [Internet]. Quantum Reports. 2019 ; 1( 2): 304-316.Available from: https://doi.org/10.3390/quantum1020028
    • Vancouver

      Roy R, Camille L, Lode AUJ, Gammal A, Chakrabarti B. Fidelity and Entropy Production in Quench Dynamics of Interacting Bosons in an Optical Lattice [Internet]. Quantum Reports. 2019 ; 1( 2): 304-316.Available from: https://doi.org/10.3390/quantum1020028
  • In: Journal of Physics B. Unidade: IF

    Subjects: Condensado De Bose-einstein

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      KUMAR, Ramavarmaraja Kishor; TOMIO, Lauro; GAMMAL, Arnaldo. Vortex patterns in rotating dipolar Bose–Einstein condensate mixtures with squaredoptical lattices. Journal of Physics B, Philadelphia, IOP Publishing, v. 52, p. 025302(17p), 2019. DOI: 10.1088/1361-6455/aaf332.
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      Kumar, R. K., Tomio, L., & Gammal, A. (2019). Vortex patterns in rotating dipolar Bose–Einstein condensate mixtures with squaredoptical lattices. Journal of Physics B, 52, 025302(17p). doi:10.1088/1361-6455/aaf332
    • NLM

      Kumar RK, Tomio L, Gammal A. Vortex patterns in rotating dipolar Bose–Einstein condensate mixtures with squaredoptical lattices. Journal of Physics B. 2019 ;52 025302(17p).
    • Vancouver

      Kumar RK, Tomio L, Gammal A. Vortex patterns in rotating dipolar Bose–Einstein condensate mixtures with squaredoptical lattices. Journal of Physics B. 2019 ;52 025302(17p).
  • In: Journal of Physics B: Atomic, Molecular and Optical Physics. Unidade: IF

    Subjects: Entropia

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      BERA, S; GAMMAL, Arnaldo; CHAKRABARTI, B; CHATTERJEE, B. Probing relaxation dynamics of a few strongly correlated bosons in a 1D triple well optical lattice. Journal of Physics B: Atomic, Molecular and Optical Physics, Bristol, IOP Publishing, v. 52, n. 21, p. 1-11, 2019. Disponível em: < https://doi.org/10.1088/1361-6455/ab2999 >.
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      Bera, S., Gammal, A., Chakrabarti, B., & Chatterjee, B. (2019). Probing relaxation dynamics of a few strongly correlated bosons in a 1D triple well optical lattice. Journal of Physics B: Atomic, Molecular and Optical Physics, 52( 21), 1-11. Recuperado de https://doi.org/10.1088/1361-6455/ab2999
    • NLM

      Bera S, Gammal A, Chakrabarti B, Chatterjee B. Probing relaxation dynamics of a few strongly correlated bosons in a 1D triple well optical lattice [Internet]. Journal of Physics B: Atomic, Molecular and Optical Physics. 2019 ; 52( 21): 1-11.Available from: https://doi.org/10.1088/1361-6455/ab2999
    • Vancouver

      Bera S, Gammal A, Chakrabarti B, Chatterjee B. Probing relaxation dynamics of a few strongly correlated bosons in a 1D triple well optical lattice [Internet]. Journal of Physics B: Atomic, Molecular and Optical Physics. 2019 ; 52( 21): 1-11.Available from: https://doi.org/10.1088/1361-6455/ab2999
  • Unidade: IF

    Subjects: Férmio, Condensado De Bose-einstein

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    • ABNT

      BERA, S.; CHAKRABARTI, B.; TSATSOS, M. C.; et al. Sorting fermionization from crystallization in many-boson wavefunctions. [S.l: s.n.], 2019.Disponível em: .
    • APA

      Bera, S., Chakrabarti, B., Tsatsos, M. C., Lekala, M. L., Chatterjee, B., Levêque, C., et al. (2019). Sorting fermionization from crystallization in many-boson wavefunctions. São Paulo. Recuperado de https://arxiv.org/abs/1806.02539
    • NLM

      Bera S, Chakrabarti B, Tsatsos MC, Lekala ML, Chatterjee B, Levêque C, Lode AUJ, Gammal A. Sorting fermionization from crystallization in many-boson wavefunctions [Internet]. 2019 ;Available from: https://arxiv.org/abs/1806.02539
    • Vancouver

      Bera S, Chakrabarti B, Tsatsos MC, Lekala ML, Chatterjee B, Levêque C, Lode AUJ, Gammal A. Sorting fermionization from crystallization in many-boson wavefunctions [Internet]. 2019 ;Available from: https://arxiv.org/abs/1806.02539
  • Unidade: IF

    Subjects: Condensado De Bose-einstein, Equações Não Lineares, Equação De Schrodinger

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      BERA, S.; CHAKRABARTI, B.; CHATTERJEE, B.; GAMMAL, Arnaldo. Quench dynamics of 1D bose gas in an optical lattice: does the system relax? [S.l: s.n.], 2018.Disponível em: .
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      Bera, S., Chakrabarti, B., Chatterjee, B., & Gammal, A. (2018). Quench dynamics of 1D bose gas in an optical lattice: does the system relax? São Paulo. Recuperado de https://arxiv.org/abs/1807.09003
    • NLM

      Bera S, Chakrabarti B, Chatterjee B, Gammal A. Quench dynamics of 1D bose gas in an optical lattice: does the system relax? [Internet]. 2018 ;Available from: https://arxiv.org/abs/1807.09003
    • Vancouver

      Bera S, Chakrabarti B, Chatterjee B, Gammal A. Quench dynamics of 1D bose gas in an optical lattice: does the system relax? [Internet]. 2018 ;Available from: https://arxiv.org/abs/1807.09003
  • Unidade: IF

    Subjects: Condensado De Bose-einstein, Equações Não Lineares, Equação De Schrodinger

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      KUMAR, R. Kishor; CHAKRABARTI, B.; GAMMAL, Arnaldo. Information entropy for a two-dimensional rotating bose-einstein condensate. [S.l: s.n.], 2018.Disponível em: .
    • APA

      Kumar, R. K., Chakrabarti, B., & Gammal, A. (2018). Information entropy for a two-dimensional rotating bose-einstein condensate. São Paulo. Recuperado de https://arxiv.org/abs/1808.01360
    • NLM

      Kumar RK, Chakrabarti B, Gammal A. Information entropy for a two-dimensional rotating bose-einstein condensate [Internet]. 2018 ;Available from: https://arxiv.org/abs/1808.01360
    • Vancouver

      Kumar RK, Chakrabarti B, Gammal A. Information entropy for a two-dimensional rotating bose-einstein condensate [Internet]. 2018 ;Available from: https://arxiv.org/abs/1808.01360
  • Unidade: IF

    Subjects: Condensado De Bose-einstein

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      ANDRIATI, Alex Valerio; GAMMAL, Arnaldo. Condensados de Bose-Einstin com interação spin-órbita. 2018.Universidade de São Paulo, São Paulo, 2018. Disponível em: < http://www.teses.usp.br/teses/disponiveis/43/43134/tde-21022018-185301/pt-br.php >.
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      Andriati, A. V., & Gammal, A. (2018). Condensados de Bose-Einstin com interação spin-órbita. Universidade de São Paulo, São Paulo. Recuperado de http://www.teses.usp.br/teses/disponiveis/43/43134/tde-21022018-185301/pt-br.php
    • NLM

      Andriati AV, Gammal A. Condensados de Bose-Einstin com interação spin-órbita [Internet]. 2018 ;Available from: http://www.teses.usp.br/teses/disponiveis/43/43134/tde-21022018-185301/pt-br.php
    • Vancouver

      Andriati AV, Gammal A. Condensados de Bose-Einstin com interação spin-órbita [Internet]. 2018 ;Available from: http://www.teses.usp.br/teses/disponiveis/43/43134/tde-21022018-185301/pt-br.php
  • Unidade: IF

    Subjects: Condensado De Bose-einstein, Equações Não Lineares, Equação De Schrodinger

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      MENDONÇA, J. T.; TERÇAS, H.; GAMMAL, Arnaldo. Quantum landau damping in dipolar bose-einstein condensates. [S.l: s.n.], 2018.Disponível em: .
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      Mendonça, J. T., Terças, H., & Gammal, A. (2018). Quantum landau damping in dipolar bose-einstein condensates. São Paulo. Recuperado de https://arxiv.org/abs/1801.06256
    • NLM

      Mendonça JT, Terças H, Gammal A. Quantum landau damping in dipolar bose-einstein condensates [Internet]. 2018 ;Available from: https://arxiv.org/abs/1801.06256
    • Vancouver

      Mendonça JT, Terças H, Gammal A. Quantum landau damping in dipolar bose-einstein condensates [Internet]. 2018 ;Available from: https://arxiv.org/abs/1801.06256
  • In: Physical Review A. Unidade: IF

    Subjects: Condensado De Bose-einstein, Equações Não Lineares, Equação De Schrodinger

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      MENDONCA, J. T.; TERCAS, H.; GAMMAL, Arnaldo. Quantum landau damping in dipolar bose-einstein condensates. Physical Review A, College, PK., v. 97, n. ju 2018, p. 063610, 2018. DOI: 10.1103/PhysRevA.97.063610.
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      Mendonca, J. T., Tercas, H., & Gammal, A. (2018). Quantum landau damping in dipolar bose-einstein condensates. Physical Review A, 97( ju 2018), 063610. doi:10.1103/PhysRevA.97.063610
    • NLM

      Mendonca JT, Tercas H, Gammal A. Quantum landau damping in dipolar bose-einstein condensates. Physical Review A. 2018 ; 97( ju 2018): 063610.
    • Vancouver

      Mendonca JT, Tercas H, Gammal A. Quantum landau damping in dipolar bose-einstein condensates. Physical Review A. 2018 ; 97( ju 2018): 063610.
  • In: Physical Review A. Unidade: IF

    Subjects: Condensado De Bose-einstein, Equações Não Lineares, Equação De Schrodinger

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      ABDULLAEV, F. Kh; BRTKA, M.; TOMIO, Lauro; GAMMAL, Arnaldo. Solitons and josephson-type oscillations in bose-einstein condensates with spin-orbit coupling and time-varying raman frequency. Physical Review A, College, PK., v. 97, n. 5, p. 053611, 2018. DOI: 10.1103/PhysRevA.97.053611.
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      Abdullaev, F. K., Brtka, M., Tomio, L., & Gammal, A. (2018). Solitons and josephson-type oscillations in bose-einstein condensates with spin-orbit coupling and time-varying raman frequency. Physical Review A, 97( 5), 053611. doi:10.1103/PhysRevA.97.053611
    • NLM

      Abdullaev FK, Brtka M, Tomio L, Gammal A. Solitons and josephson-type oscillations in bose-einstein condensates with spin-orbit coupling and time-varying raman frequency. Physical Review A. 2018 ; 97( 5): 053611.
    • Vancouver

      Abdullaev FK, Brtka M, Tomio L, Gammal A. Solitons and josephson-type oscillations in bose-einstein condensates with spin-orbit coupling and time-varying raman frequency. Physical Review A. 2018 ; 97( 5): 053611.
  • In: Physical Review A. Unidade: IF

    Subjects: Condensado De Bose-einstein, Equações Não Lineares, Equação De Schrodinger

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      ROY, R.; TSATSOS, M. C.; CHATTERJEE, B.; et al. Phases, many-body entropy measures, and coherence of interacting bosons in optical lattices. Physical Review A, College, PK., v. 97, n. 4, p. 043625, 2018. DOI: 10.1103/PhysRevA.97.043625.
    • APA

      Roy, R., Tsatsos, M. C., Chatterjee, B., Chakrabarti, B., Lode, A. U. J., & Gammal, A. (2018). Phases, many-body entropy measures, and coherence of interacting bosons in optical lattices. Physical Review A, 97( 4), 043625. doi:10.1103/PhysRevA.97.043625
    • NLM

      Roy R, Tsatsos MC, Chatterjee B, Chakrabarti B, Lode AUJ, Gammal A. Phases, many-body entropy measures, and coherence of interacting bosons in optical lattices. Physical Review A. 2018 ; 97( 4): 043625.
    • Vancouver

      Roy R, Tsatsos MC, Chatterjee B, Chakrabarti B, Lode AUJ, Gammal A. Phases, many-body entropy measures, and coherence of interacting bosons in optical lattices. Physical Review A. 2018 ; 97( 4): 043625.


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