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Sound velocity and ideal-gas specific heat of gaseous 1,1,1,2-tetrafluoroethane (R134a) (1993)

Zhu, M. S. ; Han, L. Z. ; Zhang, K. Z. ; [et al.]

Springer

International journal of thermophysics 14 (1993), S. 1039-1050

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ISSN: 1572-9567

Keywords: acoustic interferometer ; 1,1,1,2 tetraflouroethane ; R134a ; sound velocity ; specific heat

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract A cylindrical, variable-path acoustic interferometer operating at 156.252kHz is developed for determining ideal-gas specific heats. Results of validation measurements with argon are very satisfactory, with the maximum deviation of the speed of sound equal to 3×10−4. The sound velocity of gaseous R134a has been measured at low temperatures and low pressures. The specific heat was then calculated from the results. The experimental results corrected for various dispersions for the sound velocity of gaseous R134a match well with an earlier publication, with a room mean square deviation of 2.56×10−4. A new relation for the ideal-gas specific heat as a function of temperature for R134a is obtained.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00505674

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Control and local measurement of the spin chemical potential in a magnetic insulator (2017)

Du, C., van der Sar, T., Zhou, T. X., Upadhyaya, P., Casola, F., Zhang, H., Onbasli, M. C., Ross, C. A., Walsworth, R. L., Tserkovnyak, Y., Yacoby, A.

American Association for the Advancement of Science (AAAS)

In: Science

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Publication Date: 2017-07-14

Description: The spin chemical potential characterizes the tendency of spins to diffuse. Probing this quantity could provide insight into materials such as magnetic insulators and spin liquids and aid optimization of spintronic devices. Here we introduce single-spin magnetometry as a generic platform for nonperturbative, nanoscale characterization of spin chemical potentials. We experimentally realize this platform using diamond nitrogen-vacancy centers and use it to investigate magnons in a magnetic insulator, finding that the magnon chemical potential can be controlled by driving the system’s ferromagnetic resonance. We introduce a symmetry-based two-fluid theory describing the underlying magnon processes, measure the local thermomagnonic torque, and illustrate the detection sensitivity using electrically controlled spin injection. Our results pave the way for nanoscale control and imaging of spin transport in mesoscopic systems.

Keywords: Physics

Print ISSN: 0036-8075

Electronic ISSN: 1095-9203

Topics: Biology , Chemistry and Pharmacology , Geosciences , Computer Science , Medicine , Natural Sciences in General , Physics

Published by American Association for the Advancement of Science (AAAS)

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