Conductivité thermique And NotT. Fukuda
List of bibliographic references
Number of relevant bibliographic references: 19.| Ident. | Authors (with country if any) | Title |
|---|---|---|
| 000033 | Yulia Eka Putri [Japon] ; CHUNLEI WAN [Japon] ; FENG DANG [Japon] ; Takao Mori [Japon] ; Yuto Ozawa [Japon] ; Wataru Norimatsu [Japon] ; Michiko Kusunoki [Japon] ; Kunihito Koumoto [Japon] | Effects of Transition Metal Substitution on the Thermoelectric Properties of Metallic (BiS)1.2(TiS2)2 Misfit Layer Sulfide |
| 000453 | Lukasz Gondek [Pologne] ; Dariusz Kaczorowski [Pologne] ; Andrzej Szytuta [Pologne] | On the low-temperature properties of TmRu2Si2 |
| 000666 | J. Bodzenta [Pologne] ; A. Kazmierczak-Bałata [Pologne] ; T. Lukasiewicz [Pologne] ; M. Pyka [Pologne] | Correlation between the thermal diffusivity and the velocity of ultrasound in YVO4 single crystals |
| 000722 | LINGWEI LI [Japon] ; Katsuhiko Nishimura [Japon] ; Katsunori Mori [Japon] | Superconductivity and magnetism in R(Ni1- xFex)2B2C (R = Er and Tm) systems |
| 000947 | Kevin T. Zawilski [États-Unis] ; Scott D. Setzler [États-Unis] ; Peter G. Schunemann [États-Unis] ; Thomas M. Pollak [États-Unis] | Laser damage threshold of single crystal ZnGeP2 at 2.05 μm |
| 000992 | P. Wachter [Suisse] ; B. Bucher [Suisse] ; J. Malar [Suisse] | Possibility of a superfluid phase in a Bose condensed excitonic state |
| 000B68 | P. Wachter [Suisse] ; . B. Bucher [Suisse] ; J. Malar [Suisse] | Evidence of a superfluid phase in a bose condensed excitonic state |
| 000F19 | SHIXUN CAO [Japon] ; Shuji Sakai [Japon] ; Katsuhiko Nishimura [Japon] ; Katsunori Mori [Japon] | Thermal conductivity of RNi2B2C (R=Er, Tm, and Gd) systems |
| 001053 | A. I. Zagumennyi [Russie] ; Yu. D. Zavartsev [Russie] ; P. Studenikin [Russie] ; V. I. Vlasov [Russie] ; I. A. Shcherbakov [Russie] ; C. P. Wyss [Suisse] ; W. Luthy [Suisse] ; H. P. Weber [Suisse] ; P. A. Popov [Russie] | Thermal conductivity of a Tm3+ : GdVO4 crystal and the operational characteristics of a microchip laser based on it |
| 001493 | A. V. Golubkov [Russie] ; A. G. Kasymova [Russie] ; V. V. Popov [Russie] ; I. A. Smirnov [Russie] | Thermal conductivity of thulium- and lutecium-doped lanthanum monosulfide |
| 001555 | H. Misiorek [Pologne] ; J. Mucha [Pologne] ; A. Jezowski [Pologne] ; Y. Paderno ; N. Shitsevalova | Thermal conductivity of rare-earth element dodecarborides |
| 001821 | V. V. Popov [Russie] ; A. G. Kasymova [Russie] ; B. M. Buttaev [Russie] ; A. V. Golubkov [Russie] ; I. A. Smirnov [Russie] ; A. Tybulewicz | Thermal conductivity of the SmxTm1-xS system |
| 001822 | J. Mucha [Pologne] ; A. Jezowski ; A. Czopnik ; H. Misiorek ; Z. Kletowski | Thermal conductivity of REIn3 (RE ≡ Tb, Dy, Tm, Lu) single crystals |
| 001943 | F. G. Aliev [Russie] ; V. V. Moshchalkov ; V. V. Pryadun ; M. A. Arranz Monge | Thermal conductivity of TmBa2Cu3Ox and Bi2Sr2CaCu2Ox single crystals in the vicinity of the superconducting transition |
| 001C81 | W. Mutscheller ; M. Wagner | The influence of magnetic fields on the thermal conductivity of the cooperative vibronic system TmVO4 |
| 001D48 | W. Mutscheller ; M. Wagner | Thermal conductivity of cooperative Jahn-Teller E-systems |
| 001F10 | W. Mutscheller ; M. Wagner | Low temperature heat conductivity of the cooperative vibronic system TmVO4 |
| 001F18 | B. Daudin ; W. Mutscheller ; M. Wagner | Heat conductivity of the cooperative vibronic system TmVO4 |
| 001F45 | Etude de systèmes Jahn-Teller coopératifs au moyen de phonons: atténuation d'hypersons à 9 GHz, conduction thermique, chaleur spécifique |
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