Rare earth hydride films can be converted reversibly from metallic mirrors to insulating windows simply by changing the surrounding hydrogen gas pressure at room temperature. At low temperatures, in situ doping is not possible in this way as hydrogen cannot diffuse. However, our finding of persistent photoconductivity under ultraviolet illumination offers an attractive possibility to tune yttrium hydride through the T = 0 metal-insulator transition. Conductivity and Hall measurements are used to determine critical exponents. The unusually large value for the product of the static and dynamical critical exponents appears to signify the important role played by electron-electron interactions
Rare-earth metal oxyhydride thin films show a photochromic effect, where their transparency decrease...
Scientists have recently discovered simultaneous photoconductivity and photochromism (i.e., optical ...
We have exploited the switchable mirror transition, from metallic mirror to transparent insulator, i...
Rare earth hydride films can be converted reversibly from metallic mirrors to insulating windows sim...
Trivalent rare earth hydrides stabilized in thin film form demonstrate spectacular optical and elect...
The surrounding hydrogen gas pressure at room temperature was varied to convert rare earth hydride f...
The “switchable mirror” yttrium hydride is one of the few strongly correlated systems with a continu...
A single yttrium hydride thin film is conveniently driven through the T = 0 metal-insulator transiti...
The rare earth hydride YH_(3−δ) can be tuned through the metal–insulator transition both by changing...
Extraordinary large hysteresis effects in optical, electrical, and structural properties are observe...
Extraordinary large hysteresis effects in optical, electrical, and structural properties are observe...
Recently it has been discovered that lanthanum, yttrium, and other metal hydride films show dramatic...
The hydrogenation of metals often leads to changes in optical properties in the visible range. This ...
A gas loading cell has been developed to load rare earth thin film samples with hydrogen at pressure...
[EN] In 1996 surprising changes in the optical properties of Rare Earth (RE) thin films (100-200 nm)...
Rare-earth metal oxyhydride thin films show a photochromic effect, where their transparency decrease...
Scientists have recently discovered simultaneous photoconductivity and photochromism (i.e., optical ...
We have exploited the switchable mirror transition, from metallic mirror to transparent insulator, i...
Rare earth hydride films can be converted reversibly from metallic mirrors to insulating windows sim...
Trivalent rare earth hydrides stabilized in thin film form demonstrate spectacular optical and elect...
The surrounding hydrogen gas pressure at room temperature was varied to convert rare earth hydride f...
The “switchable mirror” yttrium hydride is one of the few strongly correlated systems with a continu...
A single yttrium hydride thin film is conveniently driven through the T = 0 metal-insulator transiti...
The rare earth hydride YH_(3−δ) can be tuned through the metal–insulator transition both by changing...
Extraordinary large hysteresis effects in optical, electrical, and structural properties are observe...
Extraordinary large hysteresis effects in optical, electrical, and structural properties are observe...
Recently it has been discovered that lanthanum, yttrium, and other metal hydride films show dramatic...
The hydrogenation of metals often leads to changes in optical properties in the visible range. This ...
A gas loading cell has been developed to load rare earth thin film samples with hydrogen at pressure...
[EN] In 1996 surprising changes in the optical properties of Rare Earth (RE) thin films (100-200 nm)...
Rare-earth metal oxyhydride thin films show a photochromic effect, where their transparency decrease...
Scientists have recently discovered simultaneous photoconductivity and photochromism (i.e., optical ...
We have exploited the switchable mirror transition, from metallic mirror to transparent insulator, i...
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