POLARISATION METHOD OF MONOCRYSTAL OF LITHIUM TANTALATE Russian patent published in 2010 - IPC C30B33/04 C30B29/30 

FIELD: metallurgy.

SUBSTANCE: invention relates to industrial production of monocrystals, received from melt by Czochralski method, and can be used during polarisation of ferroelectrics with high temperature Curie, principally lithium tantalate. On monocrystal of lithium tantalate by means of grinding it is formed contact pad, surface of which is perpendicular to optical axis of crystal or at acute angle to it. Monocrystal is located between bottom segmental or laminar platinum electrode and implemented from wire of diametre 0.3-0.6 mm top circular platinum electrode through adjoining to its surfaces interlayers. In the capacity of material of interlayer it is used fine-dispersed (40-100 mcm) powder of crystalline solid solution LiNb_1-xTa_xO₃, where 0.1≤x≤0.8, with bonding alcoholic addition in the form of 94-96% ethyl alcohol at mass ratio of alcohol and powder 1:2.5-3.5. Monocrystal is installed into annealing furnace, it is heated at a rate not more than 70°C/h up to temperature for 20-80°C higher than temperature Curie of monocrystal and through it is passed current by means of feeding on electrodes of polarising voltage. Then monocrystal is cooled in the mode current stabilisation at increasing of voltage rate 1.2-1.5 times up to temperature up to 90-110°C lower than temperature Curie, and following cooling is implemented in the mode of stabilisation of polarising voltage at reduction of current value through monocrystal. At reduction of current value 3.0-4.5 times of its stable value voltage feeding is stopped, after what monocrystal is cooled at a rate of natural cooling-down. Monocrystal cooling up to stop of feeding of polarising voltage is implemented at a rate 15-30°C/h.

EFFECT: method provides increasing of efficiency of monocrystals polarising of lithium tantalate, different by orientation, dimensions and conditions of growing; shaped interlayer provides durable and uniform cohesion of crystal surface to electrodes, and current and voltage stabilisation and fixed rate of crystal cooling in the range of temperature Curie provide guaranteed receiving of transparent, blast-furnace crystals of lithium tantalite without additional defects in the form of cracks and disruptions.

3 cl, 4 ex