Thin film microcalorimeter for heat capacity measurements in high magnetic fields

1 April 2002

journal article
research article
Published by AIP Publishing in Review of Scientific Instruments

Vol. 73 (4) , 1841-1844
https://doi.org/10.1063/1.1461874

Abstract

Si–N based membrane calorimeters are a promising technology for the study of thermal properties of small quantities of materials in both pulsed and steady-state magnetic fields to 60 T and beyond. We present results that demonstrate our ability to measure the heat capacity of thin film samples from 2–300 K in steady-state fields up to 8 T. These measurements include the magnetoresistance of the Pt and Nb–Si thermometers and focus on confirming that the thermal conductance of the Si–N membrane does not change significantly in magnetic fields. This means the thermal conductance needs to be measured only in zero field, reducing the measurement time in high field. This is particularly important for future measurements in fields up to 60 T.

Keywords

This publication has 12 references indexed in Scilit:

Simple microcalorimeter for measuring microgram samples at low temperatures
Review of Scientific Instruments, 2001
Specific heat of $C_{60}$ and $K_{3} C_{60}$ thin films for $T = 6 - 400$ K
Physical Review B, 1999
Large Magnetic Entropy in Giant Magnetoresistive Amorphous Gadolinium Silicon
Physical Review Letters, 1999
Specific heat of endohedral and higher fullerene thin films
The Journal of Chemical Physics, 1999
Magnetic-field-dependent thermodynamics of ${Mn}_{12}$ -acetate single crystals at low temperatures
Physical Review B, 1999
Specific heat of amorphous rare-earth–transition-metal films
Physical Review B, 1998
Nanocalorimeter for high resolution measurements of low temperature heat capacities of thin films and single crystals
Review of Scientific Instruments, 1997
Thermodynamic Measurements of Magnetic Ordering in Antiferromagnetic Superlattices
Physical Review Letters, 1996
The specific heat and upper critical field of amorphous - electronic and vibrational excitations
Journal of Physics: Condensed Matter, 1996
Thin film microcalorimeter for heat capacity measurements from 1.5 to 800 K
Review of Scientific Instruments, 1994