Dynamic Generation of Superflow in a Fermionic Ring through Phase Imprinting
- URL: http://arxiv.org/abs/2406.00289v1
- Date: Sat, 1 Jun 2024 03:34:52 GMT
- Title: Dynamic Generation of Superflow in a Fermionic Ring through Phase Imprinting
- Authors: Ke-Ji Chen, Wei Yi, Fan Wu,
- Abstract summary: We study the dynamic generation of persistent current by phase imprinting fermionic atoms in a ring geometry.
We show that as the condensate is tuned toward the Bose-Einstein-condensate side of the Feshbach resonance, the azimuthal density distribution becomes less susceptible to the phase imprinting potential.
- Score: 4.797438179753422
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: We study the dynamic generation of persistent current by phase imprinting fermionic atoms in a ring geometry. Mediated by the pairing interaction, the Fermi condensate dynamically acquires a quantized current by developing azimuthal phase slips, as well as density and pairing-order-parameter depletions. Resorting to the Bogolioubov-de Gennes formalism, we investigate the time evolution of the transferred total angular momentum and the quantized superfluid current throughout the phase-imprinting process. This enables a detailed analysis of the impact of interaction, as well as different initial pairing states, on the superflow formation. In particular, we show that, as the condensate is tuned toward the Bose-Einstein-condensate side of the Feshbach resonance, the azimuthal density distribution becomes less susceptible to the phase imprinting potential, leading to smaller quantized current under the same imprinting parameters. Our results offer microscopic insights into the dynamic development of superflow in the phase-imprinting process, and are helpful for the ongoing experimental effort.
Related papers
- Probing quantum floating phases in Rydberg atom arrays [61.242961328078245]
We experimentally observe the emergence of the quantum floating phase in 92 neutral-atom qubits.
The site-resolved measurement reveals the formation of domain walls within the commensurate ordered phase.
As the experimental system sizes increase, we show that the wave vectors approach a continuum of values incommensurate with the lattice.
arXiv Detail & Related papers (2024-01-16T03:26:36Z) - Dynamics and Phases of Nonunitary Floquet Transverse-Field Ising Model [0.5141137421503899]
We analyze the nonunitary Floquet- transverse-field I integrable model with complex nearest-neighbor couplings and complex transverse fields.
The scaling of entanglement entropy in steady states and the evolution after a quench are compatible with the non-Hermitian generalization of the quasiparticle picture of Calabrese and Cardy.
arXiv Detail & Related papers (2023-06-12T21:15:11Z) - Simulating 2+1D Lattice Quantum Electrodynamics at Finite Density with
Neural Flow Wavefunctions [5.049046327655608]
We present a neural flow wavefunction, Gauge-Fermion FlowNet, to simulate 2+1D lattice compact quantum electrodynamics with finite density dynamical fermions.
We investigate confinement and string breaking phenomena in different fermion density and hopping regimes.
arXiv Detail & Related papers (2022-12-14T18:59:07Z) - Photoinduced prethermal order parameter dynamics in the two-dimensional
large-$N$ Hubbard-Heisenberg model [77.34726150561087]
We study the microscopic dynamics of competing ordered phases in a two-dimensional correlated electron model.
We simulate the light-induced transition between two competing phases.
arXiv Detail & Related papers (2022-05-13T13:13:31Z) - Tuning long-range fermion-mediated interactions in cold-atom quantum
simulators [68.8204255655161]
Engineering long-range interactions in cold-atom quantum simulators can lead to exotic quantum many-body behavior.
Here, we propose several tuning knobs, accessible in current experimental platforms, that allow to further control the range and shape of the mediated interactions.
arXiv Detail & Related papers (2022-03-31T13:32:12Z) - Excited-state quantum phase transitions in spin-orbit coupled Bose gases [0.0]
We propose the Raman-dressed spin-orbit coupled gas as a novel platform to explore excited-state quantum phase transitions.
The phase is characterize by the the behavior of the spatial density modulations, or stripes, induced by spin-orbit coupling.
We show that the properties of the excited phase can be exploited to prepare stripe states with large and stable density modulations.
arXiv Detail & Related papers (2021-09-03T13:08:47Z) - Supersolid-Superfluid phase separation in the extended Bose-Hubbard
model [0.0]
We show that this new phase is phase-separated into a supersolid and superfluid part, generated by mechanical instability.
In particular, we demonstrate that the elementary excitations of the homogeneous superfluid with enhanced periodic modulations are phonons.
This suggests that the low-energy spectrum of the phase under investigation is effectively captured by a spinless Luttinger liquid.
arXiv Detail & Related papers (2021-06-10T16:20:09Z) - Qubit-photon bound states in topological waveguides with long-range
hoppings [62.997667081978825]
Quantum emitters interacting with photonic band-gap materials lead to the appearance of qubit-photon bound states.
We study the features of the qubit-photon bound states when the emitters couple to the bulk modes in the different phases.
We consider the coupling of emitters to the edge modes appearing in the different topological phases.
arXiv Detail & Related papers (2021-05-26T10:57:21Z) - Superstripes and quasicrystals in bosonic systems with hard-soft corona
interactions [0.0]
We investigate the effect of quantum fluctuations on the phases of bosonic particles with isotropic hard-soft corona interactions.
A rich phase diagram, parametrized by the density of particles, reveals supersolid stripes, kagome and triangular crystals in the low-density regime.
In the high-density limit we observe patterns with 12-fold rotational symmetry compatible with periodic approximants of quasicrystalline phases.
arXiv Detail & Related papers (2020-09-21T22:24:19Z) - Analog cosmological reheating in an ultracold Bose gas [58.720142291102135]
We quantum-simulate the reheating-like dynamics of a generic cosmological single-field model in an ultracold Bose gas.
Expanding spacetime as well as the background oscillating inflaton field are mimicked in the non-relativistic limit.
The proposed experiment has the potential of exploring the evolution up to late times even beyond the weak coupling regime.
arXiv Detail & Related papers (2020-08-05T18:00:26Z) - Memory-Critical Dynamical Buildup of Phonon-Dressed Majorana Fermions [72.46695228124449]
We study a one-dimensional polaronic topological superconductor with phonon-dressed $p$-wave pairing.
We show that when the memory depth increases, the Majorana edge dynamics transits from relaxing monotonically to a plateau of substantial value into a collapse-and-buildup behavior.
arXiv Detail & Related papers (2020-06-24T07:32:51Z)
This list is automatically generated from the titles and abstracts of the papers in this site.
This site does not guarantee the quality of this site (including all information) and is not responsible for any consequences.