FIELD: triple chalcogenide monocrystals designed for using in quantum electronics and optronics.
SUBSTANCE: monocrystal has chemical formula LiGaTe2, three-dimensional tetragonal-symmetry group I42d, lattice parameters a = 6.338Å, c = 11,704Å, volume of elemental cell V = 470.1Å, coordination number Z = 16, density 4.689 g/cm3 and it is grown by Bridgeman-Stockbarger process at preliminary synthesis of compound of elemental components Li, Ga, Te. Monocrystal is suitable for converting laser infrared irradiation from wavelength no less than 520 nm up to wavelength 20 micrometers.
EFFECT: new lithium containing chalcoghenide monocrystals suitable for using in optics of mean range of IR-irradiation.
3 cl, 2 dwg
| Title | Year | Author | Number |
|---|---|---|---|
| NONLINEAR MONOCRYSTAL OF LITHIUM CHALCOGENIDES OF GENERAL FORMULA LIGAINTE AND A METHOD FOR PRODUCTION THEREOF | 2019 |
|
RU2699639C1 |
| NONLINEAR SINGLE CRYSTAL OF LITHIUM CHALCOGENIDES AND METHOD FOR ITS PREPARATION | 2021 |
|
RU2763463C1 |
| METHOD FOR PRODUCTION OF SILVER THIOGALLATE SINGLE CRYSTALS | 1980 |
|
SU1839799A1 |
| METHOD FOR PRODUCTION OF SILVER THIOGALLATE SINGLE CRYSTALS | 1978 |
|
SU1839796A1 |
| MONOCRYSTALLINE MATERIAL SrMgF AND METHOD FOR PRODUCTION THEREEOF | 2014 |
|
RU2576638C2 |
| METHOD FOR PRODUCTION OF MERCURY THIOGALLATE SINGLE CRYSTALS | 1979 |
|
SU1839797A1 |
| METHOD FOR MANUFACTURING NONLINEAR COMPOUND FREQUENCY TRANSFORMER WITH COMPENSATION OF LASER RADIATION DRIFT ANGLE | 2006 |
|
RU2311668C1 |
| NON-LINEAR SINGLE CRYSTAL MATERIAL | 1980 |
|
SU1839800A1 |
| SINGLE CRYSTAL MATERIAL FOR NON-LINEAR OPTICS | 1980 |
|
SU1839798A1 |
| METHOD OF GROWING MONOCRYSTAL β-BaBO | 1998 |
|
RU2139957C1 |
