Related papers: Elastic collision rates of spin-polarized fermions in two dimensions

Elastic collision rates of spin-polarized fermions in two dimensions

URL: http://arxiv.org/abs/2305.08549v2
Date: Fri, 16 Feb 2024 04:00:34 GMT
Title: Elastic collision rates of spin-polarized fermions in two dimensions
Authors: Muhammad Awais Altaf, Takashi Mukaiyama, Muhammad Waseem
Abstract summary: We study the $p$-wave elastic collision rates in a two-dimensional spin-polarized ultracold Fermi gas in the presence of a $p$-wave Feshbach resonance. In the zero-range limit where the effective range is negligible, the elastic collision rate coefficient is proportional to temperature $T2$ and scattering area $A_p2$. Our results suggest that $p$-wave evaporation may be performed with improved efficiency and may provide insight into the dynamics of the system in experiments.
Score: 1.6473563575769847
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We study the $p$-wave elastic collision rates in a two-dimensional spin-polarized ultracold Fermi gas in the presence of a $p$-wave Feshbach resonance. We derive the analytical relation of the elastic collision rate coefficient in the close vicinity of resonance when the effective range is dominant. The elastic collision rate is enhanced by an exponential scaling of $e^{-q_{r}^{2} / q_{T}^{2}}$ towards the resonance. Here, $q_{r}$ is the resonant momentum and $q_T$ is the thermal momentum. An analogous expression is derived for the case of three dimensions successfully explains the thermalization rates measurement in the recent experiment~[Phys. Rev. A 88, 012710 (2013)]. In the zero-range limit where the effective range is negligible, the elastic collision rate coefficient is proportional to temperature $T^2$ and scattering area $A_{p}^2$. In this limit, energy transfer from high to low velocity through $p$-wave collision is approximately $\sqrt{2}$ times faster compared to the three-dimensional case. We also discuss the collisional stability in the presence of three-body losses in the background scattering limit. Our results suggest that $p$-wave evaporation may be performed with improved efficiency and may provide insight into the dynamics of the system in experiments.

Related papers

Unifying Floquet theory of longitudinal and dispersive readout [33.7054351451505]
We devise a Floquet theory of longitudinal and dispersive readout in circuit QED. We apply them to superconducting and spin-hybrid cQED systems.
arXiv Detail & Related papers (2024-07-03T18:00:47Z)
Waveguide QED at the onset of spin-spin correlations [36.136619420474766]
We find that molecules belonging to the crystal sublattice B form one-dimensional spin chains. The microwave transmission shows evidences for the collective coupling of quasi-identical spins to the propagating photons.
arXiv Detail & Related papers (2024-04-04T18:00:05Z)
Towards the "puzzle" of Chromium dimer Cr$_2$: predicting the Born-Oppenheimer rovibrational spectrum [44.99833362998488]
This paper calculates the potential energy curve for the state $X1Sigma+$ of the Cr$$$ dimer. It is found for the first time for the whole range of internuclear distances $R$.
arXiv Detail & Related papers (2024-01-06T17:00:12Z)
Scaling law for three-body collisions near a narrow s-wave Feshbach resonance [4.885533365541215]
We report on an experimental investigation of the scaling law for the three-body atomic loss rate $L_3$ in a two-component $6$Li Fermi gas with the scattering length $a0$. Results indicate that the three-body recombination rate in a fermionic system could be characterized by the scaling law associated with the generalized Efimov physics.
arXiv Detail & Related papers (2022-12-16T03:02:56Z)
Anomalous loss behavior in a single-component Fermi gas close to a $p$-Wave Feshbach resonance [0.0]
We investigate three-body losses in a single-component Fermi gas near a $p$-wave Feshbach resonance. We find that the loss behavior exhibits a $n3$ and an anomalous $n2$ density dependence for elastic-to-inelastic collision rate larger than smaller than 1. These findings are particularly relevant for understanding atom loss and energetic evolution of ultracold gases of fermionic lithium atoms in their ground state.
arXiv Detail & Related papers (2022-10-28T08:21:32Z)
Rapid generation of all-optical $^{39}$K Bose-Einstein condensates using a low-field Feshbach resonance [58.720142291102135]
We investigate the production of all-optical $39$K Bose-Einstein condensates with different scattering lengths using a Feshbach resonance near $33$ G. We are able to produce fully condensed ensembles with $5.8times104$ atoms within $850$ ms evaporation time at a scattering length of $232. Based on our findings we describe routes towards high-flux sources of ultra-cold potassium for inertial sensing.
arXiv Detail & Related papers (2022-01-12T16:39:32Z)
Ultracold spin-balanced fermionic quantum liquids with renormalized $P$-wave interactions [0.0]
We consider a spin-balanced degenerate gas of spin-1/2 fermions governed by low-energy $P$-wave interactions. The energy per particle $barcalE$ in the many-body system is calculated by resumming the ladder diagrams.
arXiv Detail & Related papers (2021-07-16T18:00:01Z)
Near-threshold scaling of resonant inelastic collisions at ultralow temperatures [0.0]
Cross sections for a broad range of resonant it inelastic processes exhibit an unconventional near-threshold scaling $EDelta m_12$. For collisions dominated by even partial waves (such as those of identical bosons in the same internal state) the scaling is modified to $sigma_textinelpropto EDelta m_12 +1 $ if $Delta m_12$ is odd.
arXiv Detail & Related papers (2021-05-25T14:56:58Z)
$\mathcal{P}$,$\mathcal{T}$-odd effects for RaOH molecule in the excited vibrational state [77.34726150561087]
Triatomic molecule RaOH combines the advantages of laser-coolability and the spectrum with close opposite-parity doublets. We obtain the rovibrational wave functions of RaOH in the ground electronic state and excited vibrational state using the close-coupled equations derived from the adiabatic Hamiltonian.
arXiv Detail & Related papers (2020-12-15T17:08:33Z)
Anharmonic oscillator: a solution [77.34726150561087]
The dynamics in $x$-space and in $(gx)-space corresponds to the same energy spectrum with effective coupling constant $hbar g2$. A 2-classical generalization leads to a uniform approximation of the wavefunction in $x$-space with unprecedented accuracy.
arXiv Detail & Related papers (2020-11-29T22:13:08Z)
Spin-polarized fermions with $p$-wave interactions [0.0]
We study quantum degenerate Fermi gases of $6$Li atoms at high densities ($1015$ cm$-3$) We observe elastic and inelastic $p$-wave collisions far away from any Feshbach resonance.
arXiv Detail & Related papers (2020-09-13T04:05:36Z)

This list is automatically generated from the titles and abstracts of the papers in this site.