Formation of droplets of the order parameter and superconductivity in
inhomogeneous Fermi-Bose mixtures (Brief review)
- URL: http://arxiv.org/abs/2306.15770v1
- Date: Tue, 27 Jun 2023 19:45:45 GMT
- Title: Formation of droplets of the order parameter and superconductivity in
inhomogeneous Fermi-Bose mixtures (Brief review)
- Authors: M.Yu. Kagan, S.V. Aksenov, A.V. Turlapov, R.Sh. Ikhsanov, K.I. Kugel,
E.A. Mazur, E.A. Kuznetsov, V.M. Silkin, and E.A. Burovski
- Abstract summary: A spatially separated Fermi-Bose mixture is relevant to superconducting BaKBiO3 bismuth oxides.
Droplets of the order parameter can occur in thin films of a dirty metal.
Plasmon contribution to the charge screening in MgB2 leads to the formation of spatially modulated inhomogeneous structures.
- Score: 0.0
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: The studies of a number of systems treated in terms of an inhomogeneous
(spatially separated) Fermi-Bose mixture with superconducting clusters or
droplets of the order parameter in a host medium with unpaired normal states
are reviewed. A spatially separated Fermi-Bose mixture is relevant to
superconducting BaKBiO3 bismuth oxides. Droplets of the order parameter can
occur in thin films of a dirty metal, described in the framework of the
strongly attractive two-dimensional Hubbard model at a low electron density
with a clearly pronounced diagonal disorder. The Bose-Einstein condensate
droplets are formed in mixtures and dipole gases with an imbalance in the
densities of the Fermi and Bose components. The Bose-Einstein condensate
clusters also arise at the center or at the periphery of a magnetic trap
involving spin-polarized Fermi gases. Exciton and plasmon collapsing droplets
can emerge in the presence of the exciton-exciton or plasmon-plasmon
interaction. The plasmon contribution to the charge screening in MgB2 leads to
the formation of spatially modulated inhomogeneous structures. In metallic
hydrogen and metal hydrides, droplets can be formed in shock-wave experiments
at the boundary of the first-order phase transition between the metallic and
molecular phases. In a spatially separated Fermi-Bose mixture arising in an
Aharonov-Bohm interference ring with a superconducting bridge in a
topologically nontrivial state, additional Fano resonances may appear and
collapse due to the presence of edge Majorana modes in the system.
Related papers
- Fermi polaron in atom-ion hybrid systems [0.0]
We investigate the ionic Fermi polaron consisting of a charged impurity interacting with a polarized Fermi bath.
We find a smooth polaron-molecule transition for strong coupling, in contrast with the neutral case, where the transition smoothens only for finite temperature and finite impurity density.
This study may provide valuable insights into alternative solid-state systems such as Fermi excitons polarons in atomically thin semiconductors.
arXiv Detail & Related papers (2024-01-10T18:45:02Z) - Feshbach resonances of composite charge carrier states in atomically
thin semiconductor heterostructures [0.0]
tunneling-induced layer hybridization can lead to the emergence of two distinct classes of Feshbach resonances in atomically thin semiconductors.
Based on microscopic scattering theory we show that these two types of Feshbach resonances allow to tune interactions between electrons and both short-lived intralayer, as well as long-lived interlayer excitons.
arXiv Detail & Related papers (2023-10-12T21:33:11Z) - The strongly driven Fermi polaron [49.81410781350196]
Quasiparticles are emergent excitations of matter that underlie much of our understanding of quantum many-body systems.
We take advantage of the clean setting of homogeneous quantum gases and fast radio-frequency control to manipulate Fermi polarons.
We measure the decay rate and the quasiparticle residue of the driven polaron from the Rabi oscillations between the two internal states.
arXiv Detail & Related papers (2023-08-10T17:59:51Z) - Collective flow of fermionic impurities immersed in a Bose-Einstein Condensate [34.82692226532414]
We study the collective oscillations of spin-polarized fermionic impurities immersed in a Bose-Einstein condensate.
For strong interactions, the Fermi gas perfectly mimics the superfluid hydrodynamic modes of the condensate.
With an increasing number of bosonic thermal excitations, the dynamics of the impurities cross over from the collisionless to the hydrodynamic regime.
arXiv Detail & Related papers (2023-04-16T00:58:05Z) - Exploring phonon-like interactions in one-dimensional Bose-Fermi
mixtures [0.0]
We investigate a cold atomic Bose-Fermi mixture confined in an optical lattice potential solely affecting the bosons.
Under attractive Bose-Fermi interaction, the insulating phase may adopt a fermionic wedding-cake-like configuration.
For repulsive interaction, the trap destabilizes the Peierls phase, causing the two species to separate.
arXiv Detail & Related papers (2023-03-13T13:08:02Z) - Rydberg dressed spin-1/2 Fermi gases in one dimension [3.25332920855167]
The emergent phases of strongly correlated spin-1/2 Fermi gases of Rydberg dressed atoms are investigated.
A bosonization description is used to demonstrate the ability to drive alternating quantum phase transitions between distinct Luttinger liquids.
These phases can be detected in ultracold gases of Rydberg atoms made from $6$Li.
arXiv Detail & Related papers (2022-09-07T18:00:02Z) - Thermal self-oscillations in monolayer graphene coupled to a
superconducting microwave cavity [58.720142291102135]
We observe thermal self-oscillations in a monolayer graphene flake coupled to superconducting resonator.
The experimental observations fit well with theoretical model based on thermal instability.
The modelling of the oscillation sidebands provides a method to evaluate electron phonon coupling in disordered graphene sample at low energies.
arXiv Detail & Related papers (2022-05-27T15:38:41Z) - Floquet-heating-induced Bose condensation in a scar-like mode of an open
driven optical-lattice system [62.997667081978825]
We show that the interplay of bath-induced dissipation and controlled Floquet heating can give rise to non-equilibrium Bose condensation.
Our predictions are based on a microscopic model that is solved using kinetic equations of motion derived from Floquet-Born-Markov theory.
arXiv Detail & Related papers (2022-04-14T17:56:03Z) - Multi-band Bose-Einstein condensate at four-particle scattering
resonance [47.187609203210705]
We show that magnon quantization for thin samples results in a new multi-band magnon condensate.
The most stable multi-band condensate is found in a narrow regime favoured on account of a resonance in the scattering between two bands.
arXiv Detail & Related papers (2022-01-26T16:32:58Z) - Quantum correlations, entanglement spectrum and coherence of
two-particle reduced density matrix in the Extended Hubbard Model [62.997667081978825]
We study the ground state properties of the one-dimensional extended Hubbard model at half-filling.
In particular, in the superconducting region, we obtain that the entanglement spectrum signals a transition between a dominant singlet (SS) to triplet (TS) pairing ordering in the system.
arXiv Detail & Related papers (2021-10-29T21:02:24Z) - Probing defect densities at the edges and inside Josephson junctions of
superconducting qubits [58.720142291102135]
Tunneling defects in disordered materials form spurious two-level systems.
For superconducting qubits, defects in tunnel barriers of submicrometer-sized Josephson junctions couple strongest to the qubit.
We investigate whether defects appear predominantly at the edges or deep within the amorphous tunnel barrier of a junction.
arXiv Detail & Related papers (2021-08-14T15:01:35Z)
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.