R. W. Arenz scite author profile

A drift method is described for measuring specific heats in intense magnetic fields at low temperatures. Capacitance thermometry is used, and an automated data-collection system utilizes the imbalance of a transformer-ratio-arm bridge to process the capacitance data. The zero-field specific heat must be known, and measurement of the in situ drift in zero-field calibrates the thermal link. Additional calibration of the link is required if the link’s magnetothermal conductivity effects are significant, and a specific example of a copper-wire link is presented. The method resolves complex structure in the specific heat near a steep λ-type anomaly, as illustrated by measurements on a chromite spinel at 7.5 T. The uncertainty in the method is estimated to be ≂±7%.

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Magneto-Transport Properties of Filamentary Aluminum Conductors in Magnetic Fields, 12 — 30 K

Lawless¹,

Clark²,

Arenz³

1992

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Specific Heat Measurements in KTa_1-xNb_xO₃: Quantum Ferroelectricity and Glasslike Properties

Lawless¹,

Arenz²,

Rytz

et al. 1985

Jpn. J. Appl. Phys.

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Specific heat data are reported for KTa1-x Nb x O3 mixed crystals with x=0.02, 0.03 and 0.09. The absolute value of the Nb concentration was determined by X-ray energy dispersive spectrometry. At the transition temperature T c defined by the peak dielectric constant and the onset of spontaneous birefringence, no anomaly associated with T c is detected in the specific heat. It is suggested that this result provides additional evidence for a diffuse phase transition in quantum ferroelectric KTa1-x Nb x O3. Moreover, for x=0.09, a linear term in the temperature dependence of the specific heat is found below 3 K, in agreement with the general picture of glasslike properties displayed at low temperatures by numerous ferroelectrics.

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R. W. Arenz

Thermal conductivity and electrical resistivity of copper in intense magnetic fields at low temperatures

Enthalpy improved dielectric insulation for NbTi

Method for measuring specific heats in intense magnetic fields at low temperatures using capacitance thermometry

Magneto-Transport Properties of Filamentary Aluminum Conductors in Magnetic Fields, 12 — 30 K

Specific Heat Measurements in KTa_1-xNb_xO₃: Quantum Ferroelectricity and Glasslike Properties

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R. W. Arenz

Thermal conductivity and electrical resistivity of copper in intense magnetic fields at low temperatures

Enthalpy improved dielectric insulation for NbTi

Method for measuring specific heats in intense magnetic fields at low temperatures using capacitance thermometry

Magneto-Transport Properties of Filamentary Aluminum Conductors in Magnetic Fields, 12 — 30 K

Specific Heat Measurements in KTa1-xNbxO3: Quantum Ferroelectricity and Glasslike Properties

Contact Info

Product

Resources

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Specific Heat Measurements in KTa_1-xNb_xO₃: Quantum Ferroelectricity and Glasslike Properties