Broadband Spectroscopy of Thermodynamic Magnetization Fluctuations through a Ferromagnetic Spin-Reorientation Transition

Balk, Andrew; Li, Fuxiang; Gilbert, Ian; Unguris, John; Sinitsyn, Nikolai A.; Crooker, S. A.

doi:10.1103/physrevx.8.031078

Cited by 14 publications

(9 citation statements)

References 55 publications

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“…Figure 7 shows for comparison the corresponding power spectra S q (ω). The imaginary part of S (3) z is zero for all angles which is consistent with time-reversal symmetry of z(t) for a system in thermal equilibrium 46 . Interestingly, also the real part of S (3) z is zero for ϕ = 0 while S (4) z exhibits strong correlations for all angles.…”

supporting

confidence: 78%

Higher-order moments, cumulants, and spectra of continuous quantum noise measurements

Hägele

Schefczik

2018

Phys. Rev. B

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We present general quantum mechanical expressions for higher order moments, cumulants, and spectra of continuously measured quantum systems with applications in spin noise spectroscopy, quantum transport, and measurement theory in general. Starting from the so-called stochastic master equation of continuous measurement theory, we find that the leading orders of the fluctuating detector output z(t) with respect to the measurement strength β are a white shot noise background, a constant measurement offset, and the leading order quantum noise of the measured operator A. Starting from quantum expressions for the multi-time moments z(tn) · · · z(t1) we derive three-and four-time cumulants that are valid in all orders of β covering the full regime between the weak and strong measurement limit (Zeno-limit). Intriguingly, quantum expressions for the cumulants were found that exhibit the same simple structure as those for the moments after introduction of only a slightly modified system propagator. Very compact expressions for the cumulant-based third and fourth order spectra (bispectrum and trispectrum) follow naturally. We illustrate the usefulness of higher order spectra by treating a real world two-spin system with strong hyperfine interaction. Moreover, spin noise spectroscopy is shown to have the potential for investigating the transition from weak measurements to the famous quantum Zeno regime for realistic probe laser intensities.

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confidence: 78%

Higher-order moments, cumulants, and spectra of continuous quantum noise measurements

Hägele

Schefczik

2018

Phys. Rev. B

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“…The ASI samples were mounted face-up in the x − y plane, on a positioning stage that could be temperaturecontrolled from -10 • C to +30 • C. The horizontal and vertical islands were oriented along x and ŷ, respectively. The magneto-optical noise spectrometer is adapted from an instrument previously developed to measure out-ofplane magnetization fluctuations [32]. A weak probe laser (<1 mW), incident in the x − z plane, was linearly polarized and focused to a small ( 4 µm diameter) spot on the ASI at 45 • incidence; ∼300 islands were therefore probed.…”

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confidence: 99%

Field-Induced Magnetic Monopole Plasma in Artificial Spin Ice

Goryca

Zhang

et al. 2021

Phys. Rev. X

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Artificial spin ices (ASIs) are interacting arrays of lithographically-defined nanomagnets in which novel frustrated magnetic phases can be intentionally designed. A key emergent description of fundamental excitations in ASIs is that of magnetic monopoles -mobile quasiparticles that carry an effective magnetic charge. Here we demonstrate that the archetypal square ASI lattice can host, in specific regions of its magnetic phase diagram, high-density plasma-like regimes of mobile magnetic monopoles. By passively "listening" to spontaneous monopole noise in thermal equilibrium, we reveal their intrinsic dynamics and show that monopole kinetics are minimally correlated (that is, most diffusive) in the plasma phase. These results open the door to on-demand monopole regimes having field-tunable densities and dynamic properties, thereby providing a new paradigm for probing the physics of effective magnetic charges in synthetic matter.

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“…For weak quantum measurement, it is particularly useful for monitoring quantum evolution [15][16][17][18][19] and maneuvering quantum state [20][21][22]. More recently, great efforts have been devoted to the development of different experimental techniques to detect the single qubit dynamics [23][24][25][26][27][28][29], and to characterize the decoherence induced by environments [30][31][32].…”

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confidence: 99%

Phase Diagram of the Dynamics of a Precessing Qubit under Quantum Measurement

Tang,

2020

Preprint

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We study the phase transitions induced by sequentially measuring a single qubit precessing under an external transverse magnetic field. Under projective quantum measurement, the probability distribution of the measurement outcomes can be mapped exactly to the thermodynamic probability distribution of a one-dimensional Ising model, whose coupling can be varied by the magnetic field from ferromagnetic to anti-ferromagnetic. For the general case of sequential quantum measurement,we develop a fast and exact algorithm to calculate the probability distribution function of the ferromagnetic order and anti-ferromagnetic order, and a phase diagram is obtained in the parameter space spanned by the measurement strength and magnetic field strength. The mapping to a long-range interacting Ising model is obtained in the limit of small measurement strength. Full counting statistical approach is applied to understand the phase diagram, and to make connections with the topological phase transition that is characterized by the braid group. This work deepens the understanding of phase transitions induced by quantum measurement, and may provide a new method to characterize and steer the quantum evolution.

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Broadband Spectroscopy of Thermodynamic Magnetization Fluctuations through a Ferromagnetic Spin-Reorientation Transition

Cited by 14 publications

References 55 publications

Higher-order moments, cumulants, and spectra of continuous quantum noise measurements

Higher-order moments, cumulants, and spectra of continuous quantum noise measurements

Field-Induced Magnetic Monopole Plasma in Artificial Spin Ice

Phase Diagram of the Dynamics of a Precessing Qubit under Quantum Measurement

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