Patent ID: 9499923
Filing Date: 2016-11-22
CPC Classification: C30B

Claim Text:
1. A method for the preparation of single crystals with large diameters of up to 500 mm, with a garnet structure (aluminates of lutetium and yttrium) optionally doped with one or more transition elements and oxides of rare earth elements, with the general composition of Y 3 Al 5 O 12 , LU 3 Al 5 O 12 , Y (3-x) (RE,TM) x Al 5 O 12 or Lu (3-x) (RE,TM) x Al 5 O 12 ), wherein (RE) are the rare earth elements Ce, Pr, Nd, Sm, Eu, Tb, Dy, Ho, Er, Tm, Yb, (TM) are the transition elements V, Cr, Ti, Mn, Co, and x is 0 to 3; the method comprising: rotating a single crystal seed in a crucible placed in a furnace wherein the rotating single crystal seed is contacted with a melt while an axial temperature gradient within a space containing the crucible with the melt ranges from 0.1 to 10° C./cm; and growing a single crystal at a place of contact between the single crystal seed and the melt such that crystal growth onto the single crystal seed occurs to form the single crystal; wherein powdered metal oxides are pressed into blocks and pre-sintered up to the ceramic transition temperature whereat further shrinkage and partial through-reaction in a solid phase thereof occurs, wherein the blocks are used to prepare the melt, and the melt is stirred and homogenized by melt flow or mechanical stirring of the metal oxides with concurrent removal of micro-bubbles from the melt so as to form a homogenized melt, for a period of at least 1 hour; wherein the single crystal seed has a diameter of at least 8 mm or minimum dimensions of 8×8 mm, and a length of at least 100 mm, and is secured in a holder, the single crystal seed put in contact with a surface of the homogenized melt at a location contained within the crucible placed inside the furnace; wherein at the location of contact of the single crystal seed with the melt, crystal growth onto the single crystal seed occurs under a surface of the melt while during the process, the single crystal seed is rotated at a speed of 1 to 20 rpm and pulled at the speed of 0.1 to 2 mm/hr, while the crystal growing rate and broadening of a crystal cone on the single crystal seed are maintained uniform at an angle of at least 60° from a crystal axis of the single crystal seed up to a diameter of at least 80% of a diameter of the crucible having a minimum diameter of at least 100 mm; wherein uniform growth and broadening of the crystal cone are maintained uniformly at the angle of at least 60° from the crystal axis by adjusting the crystal pulling speed, and by temperature regulation at the crystal/melt interface on the basis of optical, weight or visual monitoring; wherein upon reaching the desired diameter of the crystal cone, the diameter thereof is further maintained with minimum deviation from the achieved diameter by temperature regulation at the crystal/melt interface, and regulation of the crystal pulling and rotation speed, on the basis of optical, weight or visual monitoring; wherein towards the completion of the process the rotation and pulling speed are reduced to zero, the completion of the process takes place by separating the single crystal from the melt while, the single crystal is maintained inside the crucible in a zone wherein it was grown; wherein the growth zone is identical with a tempering zone, and final tempering of the single crystal is carried out in the tempering zone just below the melting point of the single crystal for at least 2 hours, and the rate of temperature reduction of the single crystal is at the most 100° C./hr.