UA70821A - A method for producing material for doubling the fa method for producing material for doubling the frequency of yttrium-aluminium garnet-neodymium lasrequency of yttrium-aluminium garnet-neodymium laser er - Google Patents

Abstract

A method for producing monocrystals of materials for doubling the frequency of yttrium-aluminium garnet-neodymium laser provides mixing sodium-, potassium- phosphorus-containing components and titanium dioxide (TiO2), heating monocrystals of materials to the temperature of crystallization for doubling the frequency of yttrium-aluminium garnet-neodymium laser. As sodium-, potassium-phosphorus-containing components the alkaline-phosphate glass released of humidity is used, which contains K2O (22.0-25.0 % mol), Na2O (22.0-25.0 % mol), P2O5 (50-56 % mol). Before mixing components the alkaline-phosphate glass is melted, and titanium dioxide (TiO2) (12-20 by weight %) is incorporated into the melt of said alkaline-phosphate glass with subsequent mixing the melt.

Description

Description of the invention

The invention relates to the field of chemical technology and relates to obtaining a material based on 2 single crystals (Mao 114Ko vve)KOTiO)5(РО))" for doubling the frequency of the yttrium-aluminum garnet-neodymium laser, which can be used as an optically active element in nonlinear optical devices.

The closest in technical essence to the invention is the method of obtaining single crystals of double potassium-titanium phosphate doped with sodium (Mao .114Ko vvv)K(ТО)2(РОд)" from the melt of the K»2O-Ma»O-TiO»-Р»Оv system /eieiap T. Mogreguo, AIehapdeg M. Boroiiem apa Misiog A. Bigeivom, Sayop tometepi apa rpase igapziiop ip KTR 70 ivovigisitsgev; X-Kau visdu oi zvodisht-dorea KTR ag 10.5 Kasia Stguvziaodharpieevz Zesiop V (Zygisishgai!

Zsiepse), 2003, 859, 353-360/, which involves mixing sodium-containing (Ma «НРО», Ma»РО, potassium-containing (КІАНРОХ, КоНРО)), phosphorus-containing components and titanium dioxide (ТО) with subsequent heating to a temperature of 1273-1073K . The melt obtained as a result of heating is kept at 1273K and cooled to 1073K at a rate of 1.4 degrees/hour. The obtained single crystals (Maod4114Ko vve)K«TiO)5(РО))» were separated from the remains of the 12 melt by boiling in water.

The main disadvantages of the given method of obtaining single crystals of the material for frequency doubling of the yttrium-aluminum garnet-neodymium laser are a long interaction time and low manufacturability of the process, as well as obtaining twin single crystals with significant crystallographic defects.

The basis of the invention is the task of improving the method of obtaining material for doubling the density of the yttrium-aluminum garnet-neodymium laser, in which due to the use of moisture-free alkaline phosphate glass with a certain ratio of components and the introduction of titanium dioxide ( TiO 5) into a high-temperature melt with subsequent mixing, it is possible to significantly reduce the interaction time (by 8 times), as well as to obtain high-quality crystals without crystallographic defects and doubles while improving the manufacturability and increasing the productivity of the process, and due to the implementation of the proposed process modes, the quality of the obtained product can be additionally improved. material for doubling the frequency of the yttrium-aluminum garnet-neodymium laser.

The specified task is solved by the fact that in the method of obtaining single crystals of the material for doubling the frequency of the yttrium-aluminum garnet-neodymium laser, which involves mixing sodium-containing, potassium-containing, phosphorus-containing components and titanium dioxide (TiO5), heating to the temperature of crystallization - single crystals of the material for doubling the frequency of yttrium- aluminum garnet-neodymium laser, according to the invention, as sodium-containing, potassium-containing and phosphorus-containing components, alkaline-phosphate glass freed from moisture is used, containing: K»O (22.0-25.090 mol), Ma»O (22.0-25.090 mol ), P»Obb (56-6096 mol), before mixing the components, alkaline phosphate glass is melted, and titanium dioxide (TiO") (12-2090 mass) is introduced into the av melt of the indicated alkaline phosphate glass with further mixing of the melt, and optimal the mode of obtaining single crystals is exposure of the obtained melt at the temperature of crystallization of the material for - doubling the frequency of the yttrium-aluminum garnet-neodymium laser for 3-4 g one, after which cooling is carried out at a rate of 10-5Ograd/h to 6500-7006.

In the proposed method, thanks to the production of an alkaline-phosphate "melt" during heating of alkaline-phosphate glass and the introduction of titanium dioxide (TiO) into it, it becomes possible to obtain single crystals of significant sizes, C 740 without crystallographic defects in short periods of time. A significant improvement in the technological conditions of synthesis is associated with the peculiarities of the physicochemical processes that take place in multicomponent high-temperature melts containing titanium and phosphorus oxides.

The interaction of titanium dioxide (TiO) with alkaline-phosphate high-temperature melt takes place under the conditions of heterophase dissolution with the formation of concentration-unbalanced zones. A feature of the presented technology is the use of alkaline-phosphate glass freed from moisture, the introduction of titanium dioxide (TiO 5) into the 7 melt at the temperature of single crystal crystallization with subsequent mixing of the melt, which leads to av! to a faster dissolution of titanium dioxide, and therefore to a reduction in the interaction time.

The use of crystallization from an alkaline-phosphate high-temperature melt allows you to grow high-quality single crystals of the material for doubling the frequency of the yttrium-aluminum garnet-neodymium laser with an output of 35-4595, and the implementation of the proposed modes additionally ensures the crystallization of the material for doubling with a homogeneous composition with a minimum number of crystallographic defects frequencies of yttrium-aluminum garnet-neodymium and laser.

Example.

Titanium dioxide (TiO) in the amount of 169 mass is added to the melt of alkaline phosphate glass freed from moisture of the composition: KO (23,090 mol), Ma»O (23,090 mol), 25 Р»OB (54965 mol). with subsequent mixing of the melt. in. The melt is kept for 3.5 hours at the crystallization temperature of single crystals (1000"C) and cooled at a rate of 30 degrees/hour to a temperature of 6757"C. The obtained single crystals ((Mao 114Ko vve)K(TiO)5(РО»d)»). material for doubling the frequency of the yttrium-aluminum garnet-neodymium laser with dimensions of 3.0x4.0x0.2mm is washed from the remains of reagents with hot water. The total yield of single crystals in relation to the crystal-forming 60 component (TiO") is 4095.

The use of low temperatures (10002С) affects the kinetics of dissolution of titanium dioxide and leads to a significant increase in the interaction time, and an increase in temperature (210007) contributes to the evaporation of the melt components, which significantly reduces the yield of single crystals. The number of initial components is selected experimentally, it determines the viscosity of the melt, and also allows growing single crystals in the area of material stability, because to double the frequency of the yttrium-aluminum garnet-neodymium laser, which largely affects the quality of the obtained single crystals.

When using the proposed method, high-quality single crystals of the material for doubling the frequency of the yttrium-aluminum garnet-neodymium laser are obtained in a short period of time.

Claims (2)

The formula of the invention 1. The method of obtaining single crystals of material for doubling the frequency of yttrium-aluminum garnet-neodymium/o laser, which involves mixing sodium-containing, potassium-containing, phosphorus-containing components and titanium dioxide (TiO5), heating to the temperature of crystallization of single crystals of material for doubling the frequency of yttrium-aluminum garnet-neodymium laser, which is distinguished by the fact that as sodium-containing, potassium-containing and phosphorus-containing components, alkaline-phosphate glass freed from moisture is used, containing: K»O (22.0-25.0 90 mol), Ma»O (22.0-25 ,0 95 mol), RoObB (50-56 906 mol), before mixing the components, the alkaline phosphate glass is melted, and titanium dioxide (TiO") (12-20 95 wt.) is introduced into the melt of the specified alkaline phosphate glass with further mixing melt 2. The method according to claim 71, which differs in that after adding titanium dioxide (TO 5), the obtained high-temperature melt is kept at the temperature of crystallization of single crystals of the material for doubling the frequency of the yttrium-aluminum garnet-neodymium laser for 3-4 hours, after which cooling is carried out with at a speed of 10-50 degrees/hour to 650-700. Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2004, M 10, 15.10.2004. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. « «- From school (ee) «c) and - - and? -i ("in) (ee) name) - 60 b5