Influence of a squeezed prewell on tunneling properties and bound states in heterostructures

• URL: http://arxiv.org/abs/2407.01156v1
• Date: Mon, 1 Jul 2024 10:24:57 GMT
• Title: Influence of a squeezed prewell on tunneling properties and bound states in heterostructures
• Authors: Yaroslav Zolotaryuk, Alexander V. Zolotaryuk,
• Abstract summary: A resonant tunneling effect of an extremely thin potential well on the transmission of charged particles is investigated. The peak-to-valley ratio is shown to increase crucially with the squeezing of the well.
• Score: 49.1574468325115
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: A resonant tunneling effect of an extremely thin potential well on the transmission of charged particles through a planar heterostructure with an arbitrary potential profile is investigated in a squeezing limit as the well width tends to zero. In this limit, the transmission probability through the structure is shown to be blocked for all the parameter values of the well, except a resonance set of Lebesgue measure zero. The peak-to-valley ratio is shown to increase crucially with the squeezing of the well: the thinner is its thickness, the resonant peaks become sharper and localized at isolated points. Contrary, a discrete spectrum of the heterostructure (if any) does exist both on the resonance set and beyond it, however, the squeezing scenario here turns out to be quite interesting and sophisticated.

Related papers

• Qubit-State Purity Oscillations from Anisotropic Transverse Noise [0.1950600573389501]
  We perform Ramsey experiments with noise injected along a fixed laboratory-frame axis. We observe oscillations in the purity at twice the qubit frequency arising from the intrinsic qubit Larmor precession. Our results elucidate the impact of transverse noise anisotropy on qubit decoherence and may be useful to disentangle charge and flux noise in superconducting quantum circuits.
  arXiv  Detail & Related papers  (2024-09-18T20:27:08Z)
• Acoustic higher-order topological insulator from momentum-space nonsymmorphic symmetries [18.632378628061844]
  Momentum-space nonsymmorphic symmetries can modify the manifold of the Brillouin zone and lead to a variety of topological phenomena. We present an acoustic realization of higher-order topological insulators protected by a pair of momentum-space glide reflections.
  arXiv  Detail & Related papers  (2024-09-12T16:35:42Z)
• Edge states in all-dielectric square-lattice arrays of bianisotropic microwave resonators [0.0]
  We numerically and experimentally demonstrate the presence of edge states at the interface between two domains with opposite orientations of the bianisotropic resonators. The considered design opens novel possibilities in constructing optical and microwave structures simultaneously featuring edge states at the interfaces between distinct resonator domains or a resonator domain and free space.
  arXiv  Detail & Related papers  (2024-06-21T15:40:08Z)
• Fano resonances for tilted linear and quadratic band touching dispersions in a harmonically driven potential well [0.0]
  We study the effect of the transverse linear tilt on the transmission spectra through a harmonically driven potential well oriented longitudinally. We find that the Fano resonance energy decreases (increases) for linear (quadratic) band touchings as the magnitude of the transverse momentum increases. The tilt strength can also be directly determined by measuring the Fano resonance energy as function of the transverse momenta direction.
  arXiv  Detail & Related papers  (2023-06-14T22:04:52Z)
• Dissipative stabilization of maximal entanglement between non-identical emitters via two-photon excitation [49.1574468325115]
  Two non-identical quantum emitters, when placed within a cavity and coherently excited at the two-photon resonance, can reach stationary states of nearly maximal entanglement. We show that this mechanism is merely one among a complex family of phenomena that can generate both stationary and metastable entanglement when driving the emitters at the two-photon resonance.
  arXiv  Detail & Related papers  (2023-06-09T16:49:55Z)
• Probing flux and charge noise with macroscopic resonant tunneling [45.36850110238202]
  We measure rates of incoherent tunneling from the lowest energy state in the initial well to the ground. We develop a theoretical model that allows us to extract information about flux and charge noise within one experimental setup.
  arXiv  Detail & Related papers  (2022-10-04T16:15:34Z)
• Penetration of Arbitrary Double Potential Barriers with Probability Unity: Implications for Testing the Existence of a Minimum Length [5.100621266098336]
  Quantum tunneling across double potential barriers is studied. It is rigorously proved that large barriers of arbitrary shapes can be penetrated by low-energy particles with a probability of unity.
  arXiv  Detail & Related papers  (2022-06-09T03:05:09Z)
• Fano Resonances in Quantum Transport with Vibrations [50.591267188664666]
  Quantum mechanical scattering continuum states coupled to a scatterer with a discrete spectrum gives rise to Fano resonances. We consider scatterers that possess internal vibrational degrees of freedom in addition to discrete states.
  arXiv  Detail & Related papers  (2021-08-07T12:13:59Z)
• Fano interference in quantum resonances from angle-resolved elastic scattering [62.997667081978825]
  We show that probing the angular dependence of the cross section allows us to unveil asymmetric Fano profiles in a single channel shape resonance. We observe a shift in the peak of the resonance profile in the elastic collisions between metastable helium and deuterium molecules.
  arXiv  Detail & Related papers  (2021-05-12T20:41:25Z)

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.