Spin-Lattice Relaxation of Dipolar Energy in Fluid Confined to Nanosize Cavities
p.47
p.47
Fe-Mn-Si/6.5wt%Si-Fe Bilayer Ribbons produced by Using Melt Spinning Technique
p.53
p.53
Metamaterial Based High Impedance Surface with Band-Pass Frequency Response
p.59
p.59
The Sigma Phase Evaluation in Duplex Stainless Steel Using ECT Method
p.65
p.65
Some Size and Quantum Effects in Molecular Nanostructures
p.71
p.71
Temperature Distribution Sensors Based on the Magnetostrictive Delay Line Principle
p.79
p.79
Experimental Study on the Iron Loss Curve at High Field Strength of Non-Oriented Electrical Steel Sheet
p.84
p.84
Evaluation of the Iron Loss Distribution of the Actual Stator Core Using Small Excitation Inner Cores
p.90
p.90
Magnetic Measurement and Model Based Characterisation of Phase Transformation in Lean Duplex Stainless Steel
p.96
p.96
Some Size and Quantum Effects in Molecular Nanostructures
Abstract:
Quantum effects in nanostructured magnetic solid state materials open the new ways for preparing the novel electromagnetic devices with unique characteristics. At the same the electron spin based quantum effects are fully determined of formation and growing properties of molecular clusters of these solid state materials which are united in plane and volume structures also according their quantum (elementary particle interactions) properties.
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Periodical:
Materials Science Forum (Volume 721)
Pages:
71-76
Citation:
Online since:
June 2012
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Сopyright:
© 2012 Trans Tech Publications Ltd. All Rights Reserved
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