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Temporal coherence of dipolar ultra-cold gases

2019/35/O/ST2/01873

Keywords:

Bose gases dipolar gases temporal coherence phase diffusion ultra-cold atoms

Descriptors:

  • ST2_8: Ultracold atoms and molecules
  • ST2_14: Non-linear phenomena
  • ST1_10: Ordinary differential equations and dynamical systems

Panel:

ST2 - Fundamental constituents of matter: particle, nuclear, plasma, atomic, molecular, gas and optical physics

Host institution :

Instytut Fizyki Polskiej Akademii Nauk

woj.

Other projects carried out by the institution 

Principal investigator (from the host institution):

dr hab. Emilia Witkowska 

Number of co-investigators in the project: 2

Call: PRELUDIUM BIS 1 - announced on 2019-09-16

Amount awarded: 445 200 PLN

Project start date (Y-m-d): 2020-10-01

Project end date (Y-m-d): 2024-09-30

Project duration:: 48 months (the same as in the proposal)

Project status: Project completed

Project description

Download the project description in a pdf file

Note - project descriptions were prepared by the authors of the applications themselves and placed in the system in an unchanged form.

Information in the final report

  • Publication in academic press/journals (4)
  1. Spin squeezing in open Heisenberg spin chains
    Authors:
    T. Hernández Yanes, G. Žlabys, M. Płodzień, D. Burba, M. Mackoit Sinkevičienė, E. Witkowska, and G. Juzeliūnas
    Academic press:
    PHYSICAL REVIEW B (rok: 2023, tom: 108, strony: 104301), Wydawca: APS
    Status:
    Published
    DOI:
    10.1103/PhysRevB.108.104301 - link to the publication
  2. Accelerating many-body entanglement generation by dipolar interactions in the Bose-Hubbard model
    Authors:
    Marlena Dziurawiec, Tanausú Hernández Yanes, Marcin Płodzień, Mariusz Gajda, Maciej Lewenstein, and Emilia Witkowska
    Academic press:
    PHYSICAL REVIEW A (rok: 2023, tom: 107, strony: 13311), Wydawca: APS
    Status:
    Published
    DOI:
    10.1103/PhysRevA.107.013311 - link to the publication
  3. One- and two-axis squeezing via laser coupling in an atomic Fermi-Hubbard model
    Authors:
    T. Hernández Yanes, M. Płodzień, M. Mackoit Sinkevičienė, G. Žlabys, G. Juzeliūnas, E. Witkowska
    Academic press:
    Physical Review Letters (rok: 2022, tom: 129, strony: 90403), Wydawca: American Physical Society
    Status:
    Published
    DOI:
    10.1103/PhysRevLett.129.090403 - link to the publication
  4. One- and two-axis squeezing via laser coupling in an atomic Fermi-Hubbard model
    Authors:
    T. Hernández Yanes, M. Płodzień, M. Mackoit Sinkevičienė, G. Žlabys, G. Juzeliūnas, E. Witkowska
    Academic press:
    Physical Review Letters (rok: 2022, tom: 129, strony: 90403), Wydawca: American Physical Society
    Status:
    Published
    DOI:
    10.1103/PhysRevLett.129.090403 - link to the publication

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