Related papers: Quantum Noise Spectroscopy of Criticality in an Atomically Thin Magnet

Quantum Noise Spectroscopy of Criticality in an Atomically Thin Magnet

URL: http://arxiv.org/abs/2407.05614v2
Date: Thu, 15 Aug 2024 17:36:01 GMT
Title: Quantum Noise Spectroscopy of Criticality in an Atomically Thin Magnet
Authors: Mark E. Ziffer, Francisco Machado, Benedikt Ursprung, Artur Lozovoi, Aya Batoul Tazi, Zhiyang Yuan, Michael E. Ziebel, Tom Delord, Nanyu Zeng, Evan Telford, Daniel G. Chica, Dane W. deQuilettes, Xiaoyang Zhu, James C. Hone, Kenneth L. Shepard, Xavier Roy, Nathalie P. de Leon, Emily J. Davis, Shubhayu Chatterjee, Carlos A. Meriles, Jonathan S. Owen, P. James Schuck, Abhay N. Pasupathy,
Abstract summary: We implement $T$ noise magnetometry to study critical dynamics in a 2D Van der Waals magnet CrSBr. Our work provides a first demonstration of $T$ noise magnetometry to analyze critical scaling behavior in 2D materials.
Score: 0.3749481652856809
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Dynamic critical fluctuations in magnetic materials encode important information about magnetic ordering in the associated critical exponents. Using nitrogen-vacancy centers in diamond, we implement $T_2$ (spin-decoherence) noise magnetometry to study critical dynamics in a 2D Van der Waals magnet CrSBr. By analyzing NV decoherence on time scales approaching the characteristic correlation time $\tau_c$ of critical fluctuations, we extract the critical exponent $\nu$ for the correlation length. Our result deviates from the Ising prediction and highlights the role of long-range dipolar interactions in 2D CrSBr. Furthermore, analyzing the divergence of the correlation length suggests the possibility of 2D-XY criticality in CrSBr in a temperature window near $T_C$ where static magnetic domains are absent. Our work provides a first demonstration of $T_2$ noise magnetometry to quantitatively analyze critical scaling behavior in 2D materials.

Related papers

Nanoscale magnetic ordering dynamics in a high Curie temperature ferromagnet [11.197717254015092]
Cluster analysis of the measured temperature-dependent nanoscale magnetic textures points to a 3D class with a correlation length that diverges near $mathrmT_c$. Our results capture both static and dynamic aspects of critical behavior, providing insights into universality that govern phase transitions in magnetic materials.
arXiv Detail & Related papers (2024-10-24T20:56:32Z)
Studying Critical Parameters of Superconductor via Diamond Quantum Sensors [2.8505276433658175]
We develop the use of a single species of quantum sensor to determine and estimate several critical parameters. We demonstrate the use of diamond particles and a bulk diamond to probe the Meissner effect.
arXiv Detail & Related papers (2024-07-23T21:23:54Z)
Critical fluctuation and noise spectra in two-dimensional Fe$_{3}$GeTe$_{2}$ magnets [24.442543023868097]
Critical fluctuations play a fundamental role in determining the spin orders for low-dimensional quantum materials. We employ the quantum decoherence imaging technique utilizing nitrogen-vacancy centers in diamond to explore the critical magnetic fluctuations.
arXiv Detail & Related papers (2024-06-30T10:18:08Z)
Room temperature relaxometry of single nitrogen-vacancy centers in proximity to $\alpha$-RuCl$_3$ nanoflakes [0.0]
We investigate the spin dynamics of nanometers-thin flakes of $alpha$-RuCl$_3$ at room temperature. The influence of the room-temperature spin dynamics can be used to gain information on the material itself and the technique to be used on other 2D materials.
arXiv Detail & Related papers (2023-12-24T19:14:47Z)
Finite-size scaling analysis of the two-dimensional random transverse-field Ising ferromagnet [0.7342677574855649]
In one dimension, the critical properties are governed by an infinite-randomness fixed point. In another dimension, the critical point remains unsettled among quantum Monte Carlo studies. We perform extensive QMC simulations to locate the quantum critical point.
arXiv Detail & Related papers (2023-10-23T09:47:23Z)
Dynamics of magnetization at infinite temperature in a Heisenberg spin chain [105.07522062418397]
In a chain of 46 superconducting qubits, we study the probability distribution, $P(mathcalM)$, of the magnetization transferred across the chain's center. The first two moments of $P(mathcalM)$ show superdiffusive behavior, a hallmark of KPZ. The third and fourth moments rule out the KPZ conjecture and allow for evaluating other theories.
arXiv Detail & Related papers (2023-06-15T17:58:48Z)
Probing dynamics of a two-dimensional dipolar spin ensemble using single qubit sensor [62.997667081978825]
We experimentally investigate individual spin dynamics in a two-dimensional ensemble of electron spins on the surface of a diamond crystal. We show that this anomalously slow relaxation rate is due to the presence of strong dynamical disorder. Our work paves the way towards microscopic study and control of quantum thermalization in strongly interacting disordered spin ensembles.
arXiv Detail & Related papers (2022-07-21T18:00:17Z)
Clean two-dimensional Floquet time-crystal [68.8204255655161]
We consider the two-dimensional quantum Ising model, in absence of disorder, subject to periodic imperfect global spin flips. We show by a combination of exact diagonalization and tensor-network methods that the system can sustain a spontaneously broken discrete time-translation symmetry. We observe a non-perturbative change in the decay rate of the order parameter, which is related to the long-lived stability of the magnetic domains in 2D.
arXiv Detail & Related papers (2022-05-10T13:04:43Z)
DC Quantum Magnetometry Below the Ramsey Limit [68.8204255655161]
We demonstrate quantum sensing of dc magnetic fields that exceeds the sensitivity of conventional $Tast$-limited dc magnetometry by more than an order of magnitude. We used nitrogen-vacancy centers in a diamond rotating at periods comparable to the spin coherence time, and characterize the dependence of magnetic sensitivity on measurement time and rotation speed.
arXiv Detail & Related papers (2022-03-27T07:32:53Z)
$\mathcal{P}$,$\mathcal{T}$-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)
Optimal coupling of HoW$_{10}$ molecular magnets to superconducting circuits near spin clock transitions [85.83811987257297]
We study the coupling of pure and magnetically diluted crystals of HoW$_10$ magnetic clusters to microwave superconducting coplanar waveguides. Results show that engineering spin-clock states of molecular systems offers a promising strategy to combine sizeable spin-photon interactions with a sufficient isolation from unwanted magnetic noise sources.
arXiv Detail & Related papers (2019-11-18T11:03:06Z)

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