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- Title
Temperature and Voltage Offsets in High-<italic>ZT</italic> Thermoelectrics.
- Authors
Levy, George S.
- Abstract
Thermodynamic temperature can take on different meanings. Kinetic temperature is an expectation value and a function of the kinetic energy distribution. Statistical temperature is a parameter of the distribution. Kinetic temperature and statistical temperature, identical in Maxwell-Boltzmann statistics, can differ in other statistics such as those of Fermi-Dirac or Bose-Einstein when a field is present. Thermal equilibrium corresponds to zero statistical temperature gradient, not zero kinetic temperature gradient. Since heat carriers in thermoelectrics are fermions, the difference between these two temperatures may explain voltage and temperature offsets observed during meticulous Seebeck measurements in which the temperature-voltage curve does not go through the origin. In conventional semiconductors, temperature offsets produced by fermionic electrical carriers are not observable because they are shorted by heat phonons in the lattice. In high-<italic>ZT</italic> materials, however, these offsets have been detected but attributed to faulty laboratory procedures. Additional supporting evidence for spontaneous voltages and temperature gradients includes data collected in epistatic experiments and in the plasma Q-machine. Device fabrication guidelines for testing the hypothesis are suggested including using unipolar junctions stacked in a superlattice, alternating <italic>n</italic>/<italic>n</italic>+ and <italic>p</italic>/<italic>p</italic>+ junctions, selecting appropriate dimensions, doping, and loading.
- Subjects
ABSOLUTE temperature; THERMODYNAMICS; ELECTRIC potential; THERMOELECTRICITY; KINETIC energy; SEEBECK effect
- Publication
Journal of Electronic Materials, 2018, Vol 47, Issue 6, p3067
- ISSN
0361-5235
- Publication type
Article
- DOI
10.1007/s11664-017-5875-0