Spin Dynamics in Quantum Sine-Gordon Spin Chains: High-Field ESR Studies

Abstract: A spin-1/2 Heisenberg antiferromagnetic chain is one of the most important paradigmatic models in quantum magnetism. Its ground state is a spin singlet, while the excitation spectrum is formed by gapless fractional excitations, spinons. The presence of alternating g-tensors and/or the staggered Dzyaloshinskii-Moriya interaction results in opening the energy gap $$\varDelta \propto H^{2/3}$$ Δ ∝ H … Show more

“…Quantum spin chains are the fundamental building blocks of quantum magnetism. As we seek to understand magnets of increasing complexity, starting with a single spin and working our way up to many body systems, the linear spin chain is the first system we encounter that shows quantum many-body behavior in the form of gaps, collective excitations, fractionalized excitations, and order parameters. − Surprisingly, chiral spin chains are under-explored, despite the fact that chirality is implicated in a number of exciting and unexpected properties. − [Cu­(pym)­(H 2 O) 4 ]­SiF 6 ·H 2 O was recently recognized as a chiral spin chain with properties that differ significantly from those of a traditional linear spin chain. , This metal–organic material forms chiral chains of S = 1/2 Cu 2+ ions along the c -axis where the spiral has a periodicity of four Cu centers [Figure (a)]. The Cu spins are interspersed by meta-linked pyrimidines that provide the primary exchange interaction along the chains. ,, The exchange interaction is antiferromagnetic ( J = −42 K) based on susceptibility, heat capacity, and magnetization .…”

High Field Electrical Polarization and Magnetoelectric Coupling in Chiral Magnet [Cu(pym)(H₂O)₄]SiF₆·H₂O

“…Quantum spin chains are the fundamental building blocks of quantum magnetism. As we seek to understand magnets of increasing complexity, starting with a single spin and working our way up to many body systems, the linear spin chain is the first system we encounter that shows quantum many-body behavior in the form of gaps, collective excitations, fractionalized excitations, and order parameters. − Surprisingly, chiral spin chains are under-explored, despite the fact that chirality is implicated in a number of exciting and unexpected properties. − [Cu­(pym)­(H 2 O) 4 ]­SiF 6 ·H 2 O was recently recognized as a chiral spin chain with properties that differ significantly from those of a traditional linear spin chain. , This metal–organic material forms chiral chains of S = 1/2 Cu 2+ ions along the c -axis where the spiral has a periodicity of four Cu centers [Figure (a)]. The Cu spins are interspersed by meta-linked pyrimidines that provide the primary exchange interaction along the chains. ,, The exchange interaction is antiferromagnetic ( J = −42 K) based on susceptibility, heat capacity, and magnetization .…”

High Field Electrical Polarization and Magnetoelectric Coupling in Chiral Magnet [Cu(pym)(H₂O)₄]SiF₆·H₂O

Sine-Gordon dynamics in spin transport

Exact Large-Scale Fluctuations of the Phase Field in the Sine-Gordon Model