Physical and Optical Properties of Ge10Se90-xSbx Glasses

Kukreti, Atul K; Gupta, Shilpa; Saxena, Manish; Rastogi, Nikhil

doi:10.15680/ijirset.2015.0401034

Cited by 5 publications

(2 citation statements)

References 8 publications

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“…Халькогенидные стеклообразные полупроводники (ХСП) сложного состава привлекают внимание исследо-вателей в связи с их использованием в многочисленных приспособлениях микро-и оптоэлектроники [1][2][3][4][5]. Процессы переноса и накопления заряда в ХСП разных систем, как показано в работе [6], могут быть связаны с обменом электронами между заряженными дефектами, в роли которых могут выступать дефекты типа D + и D − , являющиеся центрами с отрицательной корреляционной энергией [7].…”

Section: Introductionunclassified

Диэлектрическая релаксация в тонких слоях стеклообразной системы Ge-=SUB=-28.5-=/SUB=-Рb-=SUB=-15-=/SUB=-S-=SUB=-56.5-=/SUB=-

Kastro¹,

Анисимова²,

Kononov³

2018

Физика И Техника Полупроводников

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The results of studying dielectric relaxation processes in the Ge_28.5Pb_15S_56.5 glassy system are presented. The existence of the non-Debye relaxation process caused by the distribution of relaxors over the relaxation time according to the Cole–Cole model is revealed. The energy and structural parameters are calculated: the activation energy E _ p = 0.40 eV and the molecular dipole moment μ = 1.08 D. The detected features are explained within the model according to which the chalcogenide-glass structure is a set of dipoles formed by charged defects such as D ^+ and D ^–.

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Section: Introductionunclassified

Диэлектрическая релаксация в тонких слоях стеклообразной системы Ge-=SUB=-28.5-=/SUB=-Рb-=SUB=-15-=/SUB=-S-=SUB=-56.5-=/SUB=-

Kastro¹,

Анисимова²,

Kononov³

2018

Физика И Техника Полупроводников

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“…The nature of glass structure, and the glass forming tendency of these compounds is one of the most challenging problems of glass science and condensed matter of physics. Due to these facts the fundamental investigations of their structure, optical, dielectric and photoelectric properties have attracted considerable interest [3][4][5].…”

Section: Introductionmentioning

confidence: 99%

Optical Properties of Ge23.5Pb20S56.5 Glassy System

Анисимова

Bordovsky

Castro

et al. 2016

KEM

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The spectra of refractive index and absorption coefficient in thin films of Ge23.5Pb20S56.5 glassy system were calculated on the base of analysis of transmission spectra. The refractive index has values between 2.0 and 2.6 in the spectral range between 500 nm and 1200 nm. The existence of indirect allowed transitions with energy Eg = 1.70 ± 0.01 eV and phonon energy of wph= 0.11 eV at room temperature was found. For values of the absorption coefficient a < 103см –1 the fundamental absorption edge is described by exponential function known as Urbach-rule. The static structure disorder parameter wo, is equal to 0.06 eV.

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Optical characteristics and dispersion parameters of thermally evaporated Ge50In4Ga13Se33 chalcogenide thin films

El-Metwally

Assim

Fouad

2020

Optics & Laser Technology

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Physical and Optical Properties of Ge10Se90-xSbx Glasses

Cited by 5 publications

References 8 publications

Диэлектрическая релаксация в тонких слоях стеклообразной системы Ge-=SUB=-28.5-=/SUB=-Рb-=SUB=-15-=/SUB=-S-=SUB=-56.5-=/SUB=-

Диэлектрическая релаксация в тонких слоях стеклообразной системы Ge-=SUB=-28.5-=/SUB=-Рb-=SUB=-15-=/SUB=-S-=SUB=-56.5-=/SUB=-

Optical Properties of Ge<sub>23.5</sub>Pb<sub>20</sub>S<sub>56.5</sub> Glassy System

Optical characteristics and dispersion parameters of thermally evaporated Ge50In4Ga13Se33 chalcogenide thin films

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