First Evaluation of Coated Constantan Wires Incorporating Capuchin Knots to Increase Anomalous Heat and Reduce Input Power at High Temperatures

Francesco Celani; C. Lorenzetti; G. Vassallo; E. Purchi; S. Fiorilla; S. Cupellini; M. Nakamura; P. Boccanera; A. Spallone; P. Cerreoni; B. Ortenzi; R. Burri

doi:10.70923/001c.72532

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Research Article

Vol. 30, Issue 1, 2020

January 01, 2020 CEST

First Evaluation of Coated Constantan Wires Incorporating Capuchin Knots to Increase Anomalous Heat and Reduce Input Power at High Temperatures

Francesco Celani, C. Lorenzetti, G. Vassallo, E. Purchi, S. Fiorilla, S. Cupellini, M. Nakamura, P. Boccanera, A. Spallone, P. Cerreoni, B. Ortenzi, R. Burri,

Air-flow calorimetryAnomalous Heat Excess (AHE)Electro-migration phenomenaH2 →2H dissociation by Con- stantanH2 and/or D2 absorption at high temperatures into ConstantanLow work function materialsNoble gasesPlasma surface interactionSpontaneous voltage generation along hydrogen-absorbing wiresSurface-modified Cu–Ni–Mn alloy

• https://doi.org/10.70923/001c.72532

JCMNS

Celani, Francesco, C. Lorenzetti, G. Vassallo, E. Purchi, S. Fiorilla, S. Cupellini, M. Nakamura, et al. 2020. “First Evaluation of Coated Constantan Wires Incorporating Capuchin Knots to Increase Anomalous Heat and Reduce Input Power at High Temperatures.” Journal of Condensed Matter Nuclear Science 30 (1): 25–35. https://doi.org/10.70923/001c.72532.

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