Schnack J, Wendland O. Properties of highly frustrated magnetic molecules studied by the finite-temperature Lanczos method. European Physical Journal B. 2010;78(4):535-541
The magnetic energy-level diagrams for models of the Mn-12 and V-15 molecule are calculated using th...
Schnack J, Schnalle R. Frustration effects in antiferromagnetic molecules: The cuboctahedron. In: P...
Schnack J, Schulenburg J, Richter J. Magnetism of the N =42 kagome lattice antiferromagnet. PHYSICAL...
Schnack J, Heesing C. Application of the finite-temperature Lanczos method for the evaluation of mag...
Hanebaum O, Schnack J. Advanced finite-temperature Lanczos method for anisotropic spin systems. The ...
We discuss the magnetocaloric properties of gadolinium containing magnetic molecules, whic...
Schnack J. Frustration effects in magnetic molecules. J. Low. Temp. Phys. 2006;142(3-4):283-288
Schnack J. Frustration-induced exotic properties of magnetic molecules. C. R. Chimie. 2007;10(1-2):1...
We present results from our analysis of the finite-temperature properties of the spin View the MathM...
Schnack J, Hage P, Schmidt H-J. Efficient implementation of the Lanczos method for magnetic systems....
Frustrated quantum spin systems are investigated by the large-scale numerical exact diagonalization ...
Schröder C, Fang X, Furukawa Y, et al. Spin freezing and slow magnetization dynamics in geometricall...
The spin 1/2 Heisenberg model on a square lattice with antiferromagnetic nearest- and next-nearest n...
We use the newly developed finite temperature Lanczos algorithm to calculate the finite temperature ...
Geometrically frustrated magnetic molecules have attracted a lot of interest in the field of molecul...
The magnetic energy-level diagrams for models of the Mn-12 and V-15 molecule are calculated using th...
Schnack J, Schnalle R. Frustration effects in antiferromagnetic molecules: The cuboctahedron. In: P...
Schnack J, Schulenburg J, Richter J. Magnetism of the N =42 kagome lattice antiferromagnet. PHYSICAL...
Schnack J, Heesing C. Application of the finite-temperature Lanczos method for the evaluation of mag...
Hanebaum O, Schnack J. Advanced finite-temperature Lanczos method for anisotropic spin systems. The ...
We discuss the magnetocaloric properties of gadolinium containing magnetic molecules, whic...
Schnack J. Frustration effects in magnetic molecules. J. Low. Temp. Phys. 2006;142(3-4):283-288
Schnack J. Frustration-induced exotic properties of magnetic molecules. C. R. Chimie. 2007;10(1-2):1...
We present results from our analysis of the finite-temperature properties of the spin View the MathM...
Schnack J, Hage P, Schmidt H-J. Efficient implementation of the Lanczos method for magnetic systems....
Frustrated quantum spin systems are investigated by the large-scale numerical exact diagonalization ...
Schröder C, Fang X, Furukawa Y, et al. Spin freezing and slow magnetization dynamics in geometricall...
The spin 1/2 Heisenberg model on a square lattice with antiferromagnetic nearest- and next-nearest n...
We use the newly developed finite temperature Lanczos algorithm to calculate the finite temperature ...
Geometrically frustrated magnetic molecules have attracted a lot of interest in the field of molecul...
The magnetic energy-level diagrams for models of the Mn-12 and V-15 molecule are calculated using th...
Schnack J, Schnalle R. Frustration effects in antiferromagnetic molecules: The cuboctahedron. In: P...
Schnack J, Schulenburg J, Richter J. Magnetism of the N =42 kagome lattice antiferromagnet. PHYSICAL...
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