Thermodynamic Temperature and Heat Capacity of NiSiF6·6H2O without Heat Introduction below 0.35°K. Magnetic Moment and Internal Energy from 0.05° to 4.2°K. Fields 0–90 kG Perpendicular to the c Axis-Reference-Cited by-同舟云学术

Thermodynamic Temperature and Heat Capacity of NiSiF6·6H2O without Heat Introduction below 0.35°K. Magnetic Moment and Internal Energy from 0.05° to 4.2°K. Fields 0–90 kG Perpendicular to the c Axis

Published:1967-10-15 Issue:8 Volume:47 Page:2685-2700
ISSN:0021-9606
Container-title:The Journal of Chemical Physics
language:en
Short-container-title:The Journal of Chemical Physics

Author:

Giauque W. F.,Hornung E. W.,Fisher R. A.,Brodale G. E.

Publisher

AIP Publishing

Subject

Physical and Theoretical Chemistry,General Physics and Astronomy

Link

http://aip.scitation.org/doi/pdf/10.1063/1.1712285

Reference8 articles.

1. Heat Capacity and Entropy of NiSiF6·6H2O in the Region 0.30°—4.25°K with Magnetic Fields 0–90 kG Parallel to the c Axis

2. Heat Capacity and Entropy of NiSiF6·6H2O from 0.35° to 4.2°K with Magnetic Fields 0–90 kG Perpendicular to the c axis. The Use of 3He Gas Conduction in Calorimetry

3. Magnetic Moment, Magnetic Work, and Internal Energy of NiSiF6·6H2O in the Region 0.3°—4.2°K with Magnetic Fields 0–90 kG Parallel to the c Axis

4. NiSiF6·6H2O. Temperature and Other Thermodynamic Properties from Adiabatic Demagnetization without Low‐Temperature Heat Introduction. H ∥ c Axis

5. Apparatus for Measuring Magnetothermodynamic Properties to High Fields at Low Temperatures

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1. Use of the Bibliography;Thermophysical Properties Research Literature Retrieval Guide 1900–1980;1982

2. The uniaxial ferromagnet NiZrF6⋅6H2O in a transverse field;Journal of Applied Physics;1981-03

3. Magnetothermodynamics of Nd(C2H5SO4)3⋅9H2O. IV. Determination of absolute temperature scales and other properties below 0.5°K with constant magnetic fields along the a crystal axis;The Journal of Chemical Physics;1978

4. Magnetothermodynamics of antiferromagnetic, ferroelectric, ferroelastic β‐Gd2(MoO4)3. IV Thermodynamic temperature and other properties without heat introduction below 0.5°K. Fields to 10 kG along the c+ crystal axis;The Journal of Chemical Physics;1973-12

5. Magnetothermodynamics of Single‐Crystal CuSO4·5H2O. II. Fields ‖ to the α‐Magnetic Axis. Thermodynamic Temperature and Heat Capacity without Heat Introduction below 0.4°K. Calorimetric Heat Capacity from 0.4°–4.2°K with Fields of 1 and 3 kG;The Journal of Chemical Physics;1968-04-15