[[abstract]]Handscomb's quantum Monte Carlo method is applied to calculate the zero-field susceptibility of the one-dimensional spin-S exchange interaction model. Analyses of these data show that the exponents γ = 2 and ν = 1 for all spin values.[[fileno]]2010111010038[[department]]物理
We provide a method for constructing finite temperature states of one-dimensional spin chains displa...
In this paper we explore ways to study the zero temperature limit of quantum statistical mechanics u...
We use a recently developed quantum simulation approach to study the properties of a three-dimension...
P(論文)A simple Monte Carlo method by Kadowaki and Ueda is applied to calculate the zero-field suscept...
We calculate precise numerical values for the nondivergent direct or staggered zero-temperature susc...
We present results of large scale simulations of the spin-1 Heisenberg antiferromagnet on a tetragon...
Abstract. We present results of large scale simulations of the spin-1 Heisenberg antiferromagnet on ...
Due to the large quantum fluctuation, there are many 1D quantum magnets in real life which exhibit e...
Starting from a genuine discrete version of the Feynman path-integral representation for the partiti...
[[abstract]]Thermodynamic properties of the spin-1/2 Heisenberg ferromagnet are calculated by using ...
We calculate the zero-temperature q-dependent susceptibilities of the one-dimensional, S=1/2, transv...
We investigate the minus-sign problem that afflicts quantum Monte Carlo (QMC) simulations of frustra...
We have calculated the equilibrium thermodynamic properties of Heisenberg spin systems using a quant...
A quantum Monte Carlo algorithm is constructed starting from the standard perturbation expansion in ...
Strongly correlated low-dimensional quantum spin models provide a well-established frame- work to s...
We provide a method for constructing finite temperature states of one-dimensional spin chains displa...
In this paper we explore ways to study the zero temperature limit of quantum statistical mechanics u...
We use a recently developed quantum simulation approach to study the properties of a three-dimension...
P(論文)A simple Monte Carlo method by Kadowaki and Ueda is applied to calculate the zero-field suscept...
We calculate precise numerical values for the nondivergent direct or staggered zero-temperature susc...
We present results of large scale simulations of the spin-1 Heisenberg antiferromagnet on a tetragon...
Abstract. We present results of large scale simulations of the spin-1 Heisenberg antiferromagnet on ...
Due to the large quantum fluctuation, there are many 1D quantum magnets in real life which exhibit e...
Starting from a genuine discrete version of the Feynman path-integral representation for the partiti...
[[abstract]]Thermodynamic properties of the spin-1/2 Heisenberg ferromagnet are calculated by using ...
We calculate the zero-temperature q-dependent susceptibilities of the one-dimensional, S=1/2, transv...
We investigate the minus-sign problem that afflicts quantum Monte Carlo (QMC) simulations of frustra...
We have calculated the equilibrium thermodynamic properties of Heisenberg spin systems using a quant...
A quantum Monte Carlo algorithm is constructed starting from the standard perturbation expansion in ...
Strongly correlated low-dimensional quantum spin models provide a well-established frame- work to s...
We provide a method for constructing finite temperature states of one-dimensional spin chains displa...
In this paper we explore ways to study the zero temperature limit of quantum statistical mechanics u...
We use a recently developed quantum simulation approach to study the properties of a three-dimension...
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