Bifurcations of nonlinear dynamics in coupled twin spin masers
- URL: http://arxiv.org/abs/2410.20087v1
- Date: Sat, 26 Oct 2024 05:41:57 GMT
- Title: Bifurcations of nonlinear dynamics in coupled twin spin masers
- Authors: Tishuo Wang, Zhenhua Yu,
- Abstract summary: Recently, a system of coupled twin spin masers placed in dual bias magnetic fields has been studied.
Compared with previous spin masers, this setup exhibits new attractors such as quasi-periodic orbits and chaos in addition to the usual limit cycles and the trivial no signal fixed point.
Here, to shed light on the nature of the bifurcations, we turn to a closely related system and systematically study the various bifurcations therein along different routes in parameter space.
- Score: 0.7136205674624813
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: Spin masers are a prototype nonlinear dynamic system. They undergo a bifurcation at a critical amplification factor, transiting into a limit cycle phase characterized by a Larmor precession around the external bias magnetic field, thereby serving as a key frequency reference for precision measurements. Recently, a system of coupled twin spin masers placed in dual bias magnetic fields, involving simultaneously two intrinsic Larmor frequencies, has been studied. Compared with previous spin masers, this setup exhibits new attractors such as quasi-periodic orbits and chaos in addition to the usual limit cycles and the trivial no signal fixed point. The richer dynamic phases imply the existence of bifurcations, whose nature has not been fully analyzed. Here, to shed light on the nature of the bifurcations, we turn to a closely related system and systematically study the various bifurcations therein along different routes in parameter space. We identify the bifurcations as of the types including pitchfork, Hopf, homoclinic bifurcations, and saddle-node bifurcations of cycles. By both analytical and numerical methods, we reveal how various attractors interplay with each other and change their stability. We also quantitatively evaluate the locations where these bifurcations occur by tracking the both stable and even not easily detected unstable limit cycles. These findings deepen our understanding of the underlying mechanisms resulting in the rich dynamic phases in the coupled twin spin masers.
Related papers
- Multistability and Self-Trapping in Cavity-Magnonic Dimer [0.0]
We show that a driven-dissipative cavity-magnonic dimer supports multistability with coexisting symmetric and symmetry-broken steady states.<n>We analyze the quantum fidelity and mutual information between the intercavity magnon modes.
arXiv Detail & Related papers (2026-03-05T04:52:35Z) - Symmetry-protected topology and deconfined solitons in a multi-link $\mathbb{Z}_2$ gauge theory [45.88028371034407]
We study a $mathbbZ$ lattice gauge theory defined on a multi-graph with links that can be visualized as great circles of a spherical shell.<n>We show that this leads to state-dependent tunneling amplitudes underlying a phenomenon analogous to the Peierls instability.<n>By performining a detailed analysis based on matrix product states, we prove that charge deconfinement emerges as a consequence of charge-fractionalization.
arXiv Detail & Related papers (2026-03-02T22:59:25Z) - An integrated neural wavefunction solver for spinful Fermi systems [41.99844472131922]
We present an approach to solving the ground state of Fermi systems that contain spin or other discrete degrees of freedom in addition to continuous coordinates.<n>A transformer achieves both continuous position and discrete spin as inputs universal approximation to spinful generalized orbitals.<n>We validate the method on a range of two-dimensional material problems.
arXiv Detail & Related papers (2025-10-21T13:20:31Z) - Observation of Nonlinear Spin Dynamics in Dual-Cell Atomic Gases [2.094354467054429]
We report the observation of nonlinear spin dynamics in dual-bias magnetic fields with dual-cell alkali-metal atomic gases.<n>We present three representative stable dynamical behaviors of limit cycles, quasi-periodic orbits, and chaos.<n>Our findings establish a versatile platform for exploring complex spin dynamics and open new avenues for the realization of multimode spin masers, time crystals and quasi-crystals, and high-precision magnetometers.
arXiv Detail & Related papers (2025-10-15T07:13:08Z) - Macroscopic Self-Trapping and Dynamical Phase Transition in Momentum Space Bose-Einstein Condensates [0.0]
Self-trapping is a hallmark phenomenon of nonlinear dynamics.<n>BECs are a prime testbed for probing nonlinear dynamics.<n>We report the observation of self-trapping in a spin-orbit coupled BEC.
arXiv Detail & Related papers (2025-10-15T00:36:50Z) - Nonrelativistic quantum dynamics in a twisted screw spacetime [0.0]
We investigate the nonrelativistic quantum dynamics of a spinless particle in a screw-type spacetime endowed with two independent twist controls.<n>We derive the continuity equation and closed expressions for the azimuthal and axial probability currents.<n> Numerically, a finite-difference Sturm-Liouville solver (with core near the axis and Langer transform) resolves spectra, wave functions, and currents.
arXiv Detail & Related papers (2025-09-29T12:43:34Z) - Stability Analysis of Three Coupled Kerr Oscillators: Implications for Quantum Computing [0.0]
We investigate the classical dynamics of optical nonlinear Kerr couplers, focusing on their potential relevance to quantum computing applications.<n>The system is driven by an external periodic field and includes dissipative processes.<n>We show that even for identical Kerr media, the interplay between nonlinear couplings and mismatched fundamental and pump frequencies leads to rich and complex dynamics.<n>A key contribution of this work is a detailed stability analysis based on the numerical calculation of Lyapunov exponents, which reveals transitions from regular to chaotic dynamics as damping is reduced.
arXiv Detail & Related papers (2025-06-23T21:31:17Z) - Harnessing Chiral Spin States in Molecular Nanomagnets for Quantum Technologies [44.1973928137492]
We show that chiral qubits naturally suppress always-on interactions that can not be switched off in weakly coupled qubits.
Our findings establish spin chirality engineering as a promising strategy for mitigating always-on interaction in entangling two chiral qubits in molecular quantum technologies.
arXiv Detail & Related papers (2025-01-21T08:23:12Z) - Nonlinear spin dynamics induced by feedback under continuous Larmor frequency distributions [0.5812284760539712]
We study the case that the intrinsic Larmor frequencies of individual spins of the system, given rise to by an inhomogeneous bias magnetic field, form a continuum.
We establish the relation between the synchronization frequency of limit cycles and the field inhomogeneity and derive an equation determining the stability of limit cycles.
arXiv Detail & Related papers (2024-10-26T05:55:38Z) - Josephson bifurcation readout: beyond the monochromatic approximation [49.1574468325115]
We analyze properties of bifurcation quantum detectors based on weakly nonlinear superconducting resonance circuits.
This circuit can serve as an efficient detector of the quantum state of superconducting qubits.
arXiv Detail & Related papers (2024-05-25T22:22:37Z) - Quantized Thouless pumps protected by interactions in dimerized Rydberg tweezer arrays [41.94295877935867]
In the noninteracting case, quantized Thouless pumps can only occur when a topological singularity is encircled adiabatically.
In the presence of interactions, such topological transport can even persist for exotic paths in which the system gets arbitrarily close to the noninteracting singularity.
arXiv Detail & Related papers (2024-02-14T16:58:21Z) - Emergence of non-Abelian SU(2) invariance in Abelian frustrated
fermionic ladders [37.69303106863453]
We consider a system of interacting spinless fermions on a two-leg triangular ladder with $pi/2$ magnetic flux per triangular plaquette.
Microscopically, the system exhibits a U(1) symmetry corresponding to the conservation of total fermionic charge, and a discrete $mathbbZ$ symmetry.
At the intersection of the three phases, the system features a critical point with an emergent SU(2) symmetry.
arXiv Detail & Related papers (2023-05-11T15:57:27Z) - Orbit quantization in a retarded harmonic oscillator [0.0]
We analytically predict the value of the first Hopf bifurcation, unleashing a self-oscillatory motion.
When the system is driven very far from equilibrium, a multiscale strange attractor displaying intrinsic and robust intermittency is uncovered.
arXiv Detail & Related papers (2023-01-25T04:47:06Z) - 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) - Entanglement and correlations in fast collective neutrino flavor
oscillations [68.8204255655161]
Collective neutrino oscillations play a crucial role in transporting lepton flavor in astrophysical settings.
We study the full out-of-equilibrium flavor dynamics in simple multi-angle geometries displaying fast oscillations.
We present evidence that these fast collective modes are generated by the same dynamical phase transition.
arXiv Detail & Related papers (2022-03-05T17:00:06Z) - Rotation-driven transition into coexistent Josephson modes in an
atomtronic dc-SQUID [0.0]
We show that transitions to different arrays of coexistent regimes in the phase space can be attained by rotating a double-well system.
In particular, we show that within a determined rotation frequency interval, a hopping parameter, usually disregarded in nonrotating systems, turns out to rule the dynamics.
arXiv Detail & Related papers (2021-11-19T14:47:54Z) - Phase diagram and post-quench dynamics in a double spin-chain system in
transverse fields [4.179207589922213]
We study the physics of a toy multiferroic model by coupling two distinct dipolar XXZ models in transverse fields.
We find that the spin-spin interactions lead to a sizeable quadratic shift in the oscillation frequency as the inter-chain coupling is increased.
This suggests a limited control mechanism for faster information transfer in magnetic spin chains using electric fields that harnesses the electric dipoles as intermediaries.
arXiv Detail & Related papers (2021-11-15T15:18:01Z) - Rotating Majorana Zero Modes in a disk geometry [75.34254292381189]
We study the manipulation of Majorana zero modes in a thin disk made from a $p$-wave superconductor.
We analyze the second-order topological corner modes that arise when an in-plane magnetic field is applied.
We show that oscillations persist even in the adiabatic phase because of a frequency independent coupling between zero modes and excited states.
arXiv Detail & Related papers (2021-09-08T11:18:50Z) - Harmonic dual dressing of spin one-half systems [0.0]
Controlled modifications of the quantum magnetic response are produced in dressed systems by a high frequency, strong and not-resonant electromagnetic field.
The secondary field enables a fine tuning of the qubit response, with control parameters amplitude, harmonic content, spatial orientation and phase relation.
arXiv Detail & Related papers (2021-08-18T14:36:10Z)
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.