Structurally Colored Physically Unclonable Functions with Ultra‐Rich and Stable Encoding Capacity
Advanced Functional Materials, Volume 35, Issue 12, March 18, 2025.This study reports a design strategy for generating bright‐field resolvable physically unclonable functions with extremely rich encoding capacity coupled with outstanding thermal and chemical stability. The optical response emerges from thickness‐dependent structural color formation in ZnO features, which are fabricated by physical vapor deposition ...
Abidin Esidir +8 more
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Born: Ausgewählte Abhandlungen Bd. I u. II/Theoretical Physics/Ziegler: Mechanik, Bd. 2/Ristau: Die Grundgesetze des elektromagnetischen Feldes/Fundamental Laws of Physics/Nuclear Fusion, Teil III/Davies: Proc. of the 8. Internat. Conf. on Low Temperature Physics/Oswatitsch: Übungen zur Gasdynamik/Baldin: Kinematik der Kernreaktionen/Bauer: Strahlungsmessung im optischen Spektralbereich/Weiss: Solid State Physics for Metallurgists/Friedmann: Ionic Solution Theory based on Cluster Expansion … [PDF]
, 1964 G. Leibfried +13 more
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NuPECC survey 2006 on resources in nuclear physics research in NuPECC member countries [PDF]
, 2007 Nuclear Physics European Collaboration Committee +1 more
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Advanced Functional Materials, EarlyView.This work investigates the Nernst effect in the Kagome magnet ErMn6Sn6 which exhibits both topological and anomalous Nernst effects with the anomalous Nernst coefficient reaching 1.71 µV K⁻¹ at 300 K. This value surpasses that of most canted antiferromagnetic materials, making ErMn6Sn6 a promising candidate for advancing thermoelectric devices based on
Olajumoke Oluwatobiloba Emmanuel +2 more
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APPLIED NUCLEAR PHYSICS DIVISION ANNUAL REPORT FOR PERIOD ENDING SEPTEMBER 10, 1956
, 1956 Not Given Author
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NuPECC survey of nuclear physics activities and resources in NuPECC member states [PDF]
, 1997 Nuclear Physics European Collaboration Committee +1 more
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Analyzing Electronic Excitations and Exciton Binding Energies in Y6 Films
Advanced Functional Materials, EarlyView.The Y6 molecule is used for increasing the efficiency of organic solar cells. The exciton binding energy is calculated for ensembles of Y6 molecules that are representative of the typically used films. The calculations show that the excitons typically spread out over many molecules.
Sahar Javaid Akram +2 more
wiley +1 more source