Renormalization-Group Investigation of the S = 1 Random Antiferromagnetic Heisenberg Chain

Abstract: We introduce variants of the Ma-Dasgupta renormalization-group (RG) approach for random quantum spin chains, in which the energy-scale is reduced by decimation built on either perturbative or non-perturbative principles. In one non-perturbative version of the method, we require the exact invariance of the lowest gaps, while in a second class of perturbative Ma-Dasgupta techniques, different decimation rules are utilized. For the S = 1 random antiferromagnetic Heisenberg chain, both type of methods provide the … Show more

“…The S = 1 random spin chain is studied by the numerical application of the SDRG method [68], finding that the cross-over in the critical behaviour with the strength of disorder is in agreement with the analytical theory . Other studies of random spin chains with string-order parameter include the random Majumdar-Ghosh Chain [69] and the random Cluster-Ising-Model [70].…”

Strong disorder RG approach – a short review of recent developments

“…The S = 1 random spin chain is studied by the numerical application of the SDRG method [68], finding that the cross-over in the critical behaviour with the strength of disorder is in agreement with the analytical theory . Other studies of random spin chains with string-order parameter include the random Majumdar-Ghosh Chain [69] and the random Cluster-Ising-Model [70].…”

Strong disorder RG approach – a short review of recent developments