Related papers: Spontaneous decay of artificial atoms in a three-qubit system

Spontaneous decay of artificial atoms in a three-qubit system

URL: http://arxiv.org/abs/2106.13447v2
Date: Wed, 28 Jul 2021 08:01:59 GMT
Title: Spontaneous decay of artificial atoms in a three-qubit system
Authors: Ya. S. Greenberg, A. A. Shtygashev, and A. G. Moiseev
Abstract summary: We study the evolution of qubits amplitudes in a one-dimensional chain consisting of three equidistantly spaced noninteracting qubits embedded in an open waveguide. We show that the dynamics of qubits amplitudes crucially depend on the value of $kd$.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We study the evolution of qubits amplitudes in a one-dimensional chain consisting of three equidistantly spaced noninteracting qubits embedded in an open waveguide. The study is performed in the frame of single-excitation subspace, where the only qubit in the chain is initially excited. We show that the dynamics of qubits amplitudes crucially depend on the value of $kd$, where $k$ is the wave vector, $d$ is a distance between neighbor qubits. If $kd$ is equal to an integer multiple of $\pi$, then the qubits are excited to a stationary level. In this case, it is the dark states which prevent qubits from decaying to zero even though they do not contribute to the output spectrum of photon emission. For other values of $kd$ the excitations of qubits exhibit the damping oscillations which represent the vacuum Rabi oscillations in a three-qubit system. In this case, the output spectrum of photon radiation is determined by a subradiant state which has the lowest decay rate. We also investigated the case with the frequency of a central qubit being different from that of the edge qubits. In this case, the qibits decay rates can be controlled by the frequency detuning between the central and the edge qubits.

Related papers

Coherent Control of the Fine-Structure Qubit in a Single Alkaline-Earth Atom [0.7033719572603241]
Raman coupling of qubit states promises rapid single-qubit rotations on par with the fast Rydberg-mediated two-body gates. We demonstrate preparation, read-out, and coherent control of the qubit. Our work opens the door for a so far unexplored qubit encoding concept for neutral atom based quantum computing.
arXiv Detail & Related papers (2024-01-19T13:22:27Z)
Single-photon scattering on a two-qubit system. Spatio-temporal structure of the scattered field [0.0]
We study the photon electric field produced by the scattering of a single photon narrow pulse from a system of two identical qubits coupled to modes in a one-dimensional (1D) open waveguide. We show that as the time after the event of scattering tends to infinity, the steady state photon the field is being formed in the whole one-dimensional space.
arXiv Detail & Related papers (2023-10-28T14:57:08Z)
Photon-induced droplet-like bound states in one-dimensional qubit array [0.0]
We study the bandgap regime where the energy of two excited qubits is off-resonant with the two-photon bound state band. A two-step adiabatic elimination of the photonic degrees of freedom gives rise to a one-dimensional spin Hamiltonian with effective interactions.
arXiv Detail & Related papers (2023-07-12T01:46:55Z)
Qubit readouts enabled by qubit cloaking [49.1574468325115]
Time-dependent drives play a crucial role in quantum computing efforts. They enable single-qubit control, entangling logical operations, as well as qubit readout. Qubit cloaking was introduced in Lled'o, Dassonneville, et al.
arXiv Detail & Related papers (2023-05-01T15:58:25Z)
Cat-qubit-inspired gate on cos($2\theta$) qubits [77.34726150561087]
We introduce a single-qubit $Z$ gate inspired by the noise-bias preserving gate of the Kerr-cat qubit. This scheme relies on a $pi$ rotation in phase space via a beamsplitter-like transformation between a qubit and ancilla qubit.
arXiv Detail & Related papers (2023-04-04T23:06:22Z)
Learning Noise via Dynamical Decoupling of Entangled Qubits [49.38020717064383]
Noise in entangled quantum systems is difficult to characterize due to many-body effects involving multiple degrees of freedom. We develop and apply multi-qubit dynamical decoupling sequences that characterize noise that occurs during two-qubit gates.
arXiv Detail & Related papers (2022-01-26T20:22:38Z)
Cavity-QED of a quantum metamaterial with tunable disorder [0.0]
We explore a quantum metamaterial based on a superconducting chip with 25 frequency-tunable transmon qubits coupled to a common coplanar resonator. The collective bright and dark modes are probed via the microwave response, i.e., by measuring the transmission amplitude of an external microwave signal.
arXiv Detail & Related papers (2021-07-03T12:24:56Z)
Partitioning dysprosium's electronic spin to reveal entanglement in non-classical states [55.41644538483948]
We report on an experimental study of entanglement in dysprosium's electronic spin. Our findings open up the possibility to engineer novel types of entangled atomic ensembles.
arXiv Detail & Related papers (2021-04-29T15:02:22Z)
Spontaneous decay of artificial atoms in a multi-qubit system [0.0]
We study the evolution of qubits amplitudes if the only qubit in the chain was initially excited. We show that the temporal dynamics of qubits amplitudes crucially depend on the value of kd.
arXiv Detail & Related papers (2021-04-11T05:50:50Z)
Entanglement degradation of cavity modes due to the dynamical Casimir effect [68.8204255655161]
We study the entanglement dynamics between two cavities when one of them is harmonically shaken in the context of quantum information theory. We find four different depending on the frequency of the motion and the spectrum of the moving cavity.
arXiv Detail & Related papers (2020-07-13T18:57:31Z)
Zitterbewegung and Klein-tunneling phenomena for transient quantum waves [77.34726150561087]
We show that the Zitterbewegung effect manifests itself as a series of quantum beats of the particle density in the long-time limit. We also find a time-domain where the particle density of the point source is governed by the propagation of a main wavefront. The relative positions of these wavefronts are used to investigate the time-delay of quantum waves in the Klein-tunneling regime.
arXiv Detail & Related papers (2020-03-09T21:27:02Z)

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