Large REBCO single crystals: growth processes and superconducting properties

Abstract

A low solubility of yttrium in the Ba - Cu - O melt and a steep liquidus slope near the peritectic temperature lead to a very slow growth rate of (YBCO or Y123) single crystals and this creates a problem in growth of large single crystals. To solve this problem, increasing the growth rate and extending the growth time are significant. Using the crystal pulling method, we have developed several processes and succeeded in growing large Y123 and (NdBCO) single crystals with an edge size over 25 mm in the a - b plane and up to 20 mm in the c-axis direction. In this article, three methods of increasing growth rate are reviewed. They are (i) employing high oxygen partial pressure, (ii) choosing RE (rare earth) elements with higher solubilities in the Ba - Cu - O solution, and (iii) growing REBCO crystals including several RE elements. Using these methods the growth rate was effectively enhanced from two to five times that of Y123. The critical temperature of 92.7 K was achieved from a Y123 single crystal grown under 1 atm oxygen partial pressure, indicating that is insensitive to the oxygen pressure of the growth atmosphere in the YBCO system. A high of about 95 K for NdBCO superconductors with a sharp transition was obtained by controlling the ratio of Ba to Cu (Ba/Cu) in the liquid, suggesting that the Ba/Cu ratio in the liquid composition has a significant importance in controlling . By partial substitution of Sm at the Y sites up to 30%, (Y(Sm)BCO) crystals show a of and do not display depression.