Deperturbacyjna analiza widm dwuatomowych polarnych molekuł dwuatomowych

Identyfikator grantu: PT00826

Kierownik projektu: Patryk Jasik

Realizatorzy:

  • Józef Sienkiewicz
  • Tymon Kilich
  • Dariusz Kędziera
  • Konrad Borawski

Politechnika Gdańska

Wydział Fizyki Technicznej i Matematyki Stosowanej

Gdańsk

Data otwarcia: 2020-05-29

Streszczenie projektu

Studies of polar alkali dimers provide valuable insight into several basic phenomena, such as perturbations in excited states, potential curve crossings and avoided crossings, photodissociation, photoassociation, and new quantum matter, namely the Bose-Einstein condensate and ultracold two-fermionic species. The development of spectroscopic methods allows for very accurate measurements, providing valuable data for the ground and excited states of these molecules. From the theoretical point of view heteronuclear alkali metal dimers are very attractive objects due to their simple electronic structure and the possibility of treating them as effective two-electron systems with separated atomic cores. Pseudopotential methods with longtail core polarization model potentials are well suited to treat such systems.
In this project, we will consider excited states of the diatomic alkali molecules. Such states are promising candidates for establishing the new paths of creation the ultracold molecules in the deeply bound ground state. We will present the new deperturbation approach based on the n-channel model, in which excited states are connected for example by L-uncoupling terms and/or by SO coupling terms. Using theoretical potential energy curves and couplings calculated in CI TASK as well as the experimentally recorded spectra of excited states, we will be able to determine high accuracy potentials allowing for the investigation of formation dynamics of the ultracold molecules. Final calculations will be performed by means of the sPYtroscopy program package, which will be developed using the CI TASK resources.

Publikacje

  1. P. Jasik, J. Franz, D. Kędziera, T. Kilich, J. Kozicki, J.E. Sienkiewicz, Spontaneous Electron Emission Versus Dissociation in Internally Hot Silver Dimer Anions, Journal of Chemical Physics 1, (2020) 1
  2. Patryk Jasik, Tymon Kilich, Jan Kozicki1, Józef E. Sienkiewicz, Deperturbation analysis of the polar alkali diatomic molecules spectra, 1st Annual Workshop of CA18222 COST Action, Virtual meeting 1, (2020) 44
  3. Patryk Jasik, Jan Kozicki, Tymon Kilich, Józef E. Sienkiewicz, Niels E. Henriksen, Dynamics of rotational predissociation of KLi, 1st Annual Workshop of CA18222 COST Action, Virtual meeting 1, (2020) 61
  4. Patryk Jasik, Jan Franz, Dariusz Kędziera, Tymon Kilich, Jan Kozicki, and Józef E. Sienkiewicz, Spontaneous electron emission vs dissociation in internally hot silver dimer anions, Journal of Chemical Physics 154, (2021) 164301
  5. K. Bączek, P. Jasik, T. Kilich, and J.E. Sienkiewicz, Born-Oppenheimer potential energy curves of NaK from the optimised atomic basis sets, Molecular Physics 1, (2021) 1
  6. Patryk Jasik, Quantum dynamics in systems with weak and strong couplings. The special case of Ag2-, COST Action AttoChem – Working Group 2 Workshop – 17-19.02.2021 1, (2021) 1
  7. Patryk Jasik, Spontaneous Electron Emission Versus Dissociation in Internally Hot Silver Dimer Anions, 52nd Conference of the European Group on Atomic Systems (EGAS), 06-08.07.2021 1, (2021) 1
  8. K. Bączek, P. Jasik, T. Kilich, and J.E. Sienkiewicz, Born–Oppenheimer potential energy curves of NaK from the optimised atomic basis sets, Molecular Physics 120, (2022) 1-8
  9. Marta Dudek, Anna Kaczmarek-Kędziera, Radosław Deska, Jakub Trojnar, Patryk Jasik, Piotr Młynarz, Marek Samoć, and Katarzyna Matczyszyn, Linear and Nonlinear Optical Properties of Azobenzene Derivatives Modified with an (Amino)naphthalene Moiety, The Journal of Physical Chemistry B 126, (2022) 6063-6073
  10. Patryk Jasik, Tymon Kilich, Potential Energy Curves of Diatomic Alkali Molecules Datasets, Gdańsk University of Technology Publishing House, ed. Anna Wałek 1, (2022) 226-229
  11. Patryk Jasik, Spontaneous Electron Emission Versus Dissociation in Internally Hot Silver Dimer Anions, Warsztaty Naukowe FoKA 3, Fotony - Kwanty - Atomy, 11-13.05.2022, Gdańsk 1, (2022) 1
  12. Janek Kozicki, Patryk Jasik, Tymon Kilich, Józef E. Sienkiewicz, Optimization of the Femtosecond Laser Impulse for Photoassociation and the Power-Law Decay for the Spin-Orbit Mediated Dissociation in the NaRb Dimer, Annual Meeting of the COST Action CA18222, 19-21 September 2022, Prague 1, (2022) 1
  13. J. Kozicki, P. Jasik, T. Kilich, J.E. Sienkiewicz, Optimization of the femtosecond laser impulse for excitation and the spin-orbit mediated dissociation in the NaRb dimer, J. Quant. Spectrosc. Radiat. Transf. 306, (2023) 108644
  14. P. Jasik, P. Łobacz, J.E. Sienkiewicz, Potential energy curves, transition and permanent dipole moments of KRb, At. Data Nucl. Data Tables 149, (2023) 101558
  15. Patryk Jasik, Badania dynamiki procesów fotoindukowanych w cząsteczkach dwuatomowych, 48. Zjazd Fizyków Polskich, 01-07.09.2023, Gdańsk 1, (2023) 1
  16. Patryk Jasik, Dynamics of Photoinduced Processes in Diatomic Molecules, 3rd mini-Symposium "Interactions", 24-25.11.2023, Toruń 1, (2023) 1


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