Fig. 4 Direct observation of Peltier, Joule, current crowding, and magneto-Peltier effects. Direct observation of Peltier, Joule, current crowding, and.

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Presentation transcript:

Fig. 4 Direct observation of Peltier, Joule, current crowding, and magneto-Peltier effects. Direct observation of Peltier, Joule, current crowding, and magneto-Peltier effects. (A) Temperature versus time traces of the sum of the Joule and Peltier heats relative to a working temperature of 320 K, as recorded by the Cernox sensors A and B (see Fig. 2B). A direct current of 2 mA is applied both forward and reverse in the interconnected CoNi/Cu NWs that are 105 nm in diameter and with a packing density of 22% (R = 1.8 ohms, MR = 6.3%). (B) Same as in (A) but for higher current intensities for which the Peltier effect becomes dominated by the Joule heating, i.e., I = 20 and 40 mA, and restricted to data recorded at sensor B. Both in (A) and (B), the DC current is switched on after 100 s as shown by the vertical dashed lines. (C) Measured temperature changes ΔTH at the Peltier junction B during the magnetic field sweep for DC currents of −30 and +30 mA. Here, the contribution from the Peltier heating has been estimated (section S5). The Peltier term leads to heating and cooling at the saturation field of 9.5 kOe and depends on current flow direction. (D) Measured total temperature changes at the Peltier junction B between the zero-field () and saturated states () versus current intensity applied both forward and reverse. Inset: Data obtained in the low-current range. The error bars in (C) and (D) reflect the uncertainty of the temperature measurements as described in section S6. Tristan da Câmara Santa Clara Gomes et al. Sci Adv 2019;5:eaav2782 Copyright © 2019 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC).