Identification of Nuclear Relaxation Processes in a Gapped Quantum Magnet: Proton NMR in the S=1/2 Heisenberg Ladder Cu2(C5H12N2)2Cl4
Abstract
The proton hyperfine shift K and NMR relaxation rate 1/T1 have been measured as a function of temperature in the S=1/2 Heisenberg antiferromagnetic ladder Cu2(C5H12N2)2Cl4. The presence of a spin gap J-J in this strongly coupled ladder (J < J) is supported by the K and 1/T1 results. By comparing 1/T1 at two different proton sites, we infer the evolution of the spectral functions Sz(q,ωn) and S(q,ωn). When the gap is significantly reduced by the magnetic field, two different channels of nuclear relaxation, specific to gapped antiferromagnets, are identified and are in agreement with theoretical predictions.
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