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| Author | Gershenzon, E. M.; Gol'tsman, G. N.; Ptitsina, N. G. | ||||
| Title | Investigation of free excitons in Ge and their condensation at submillimeter wavelengths | Type | Journal Article | ||
| Year | 1976 | Publication | Sov. Phys. JETP | Abbreviated Journal | Sov. Phys. JETP |
| Volume | 43 | Issue  |
1 | Pages | 116-122 |
| Keywords | Ge, free excitons | ||||
| Abstract | Results are presented of an investigation of free excitons in Ge in the submillimeter wavelength range for low as well as for high excitation levels when interaction between the excitons becomes important. The free-exciton energy spectrum is discussed. It is shown that the drop radii and their concentrations can be determined by measuring the temperature dependence of the free-exciton concentration. A section of the phase diagram is obtained in the 0.5-2.8 K temperature range for the free excitons+condensate system. | ||||
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| Area | Expedition | Conference | |||
| Notes | Approved | no | |||
| Call Number | Serial | 1731 | |||
| Permanent link to this record | |||||
| Author | Mel’nikov, A. P.; Gurvich, Y. A.; Shestakov, L. N.; Gershenzon, E. M. | ||||
| Title | Magnetic field effects on the nonohmic impurity conduction of uncompensated crystalline silicon | Type | Journal Article | ||
| Year | 2001 | Publication | Jetp Lett. | Abbreviated Journal | Jetp Lett. |
| Volume | 73 | Issue |
1 | Pages | 44-47 |
| Keywords | uncompensated crystalline silicon, nonohmic impurity conduction, magnetic field | ||||
| Abstract | The impurity conduction of a series of crystalline silicon samples with the concentration of major impurity N ≈ 3 × 1016 cm−3 and with a varied, but very small, compensation K was measured as a function of the electric field E in various magnetic fields H-σ(H, E). It was found that, at K < 10−3 and in moderate E, where these samples are characterized by a negative nonohmicity (dσ(0, E)/dE < 0), the ratio σ(H, E)/σ(0, E) > 1 (negative magnetoresistance). With increasing E, these inequalities are simultaneously reversed (positive nonohmicity and positive magnetoresistance). It is suggested that both negative and positive nonohmicities are due to electron transitions in electric fields from impurity ground states to states in the Mott-Hubbard gap. | ||||
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| ISSN | 0021-3640 | ISBN | Medium | ||
| Area | Expedition | Conference | |||
| Notes | Approved | no | |||
| Call Number | Serial | 1752 | |||
| Permanent link to this record | |||||