CS253997B1 - Growing method of monocrystals aluminate yttrium or/and lanthanide with perovskite structure - Google Patents

Abstract

Method of growing single crystals of aluminates yttrium and / or lanthanides with perovskite structure, allowing for quality assurance material especially for laser production bars, which is achieved by being grown from melt containing each yttrium and / or lanthanide gram 0.05 liter aluminum gramion in vacuum with residual pressure gases of at most 0.01 Pa, whereupon they are heated under vacuum with residual gas pressure not more than 0.01 Pa at 1450 to 1800 ° C for 2 to 30 hours.

Description

The present invention relates to a process for the cultivation of yttrium aluminate monocrystals of non-lanthanides having a perovskite structure free of molybdenum, tungsten and other transition ion elements.

The monocrystals of yttrium aluminates and / or lanthanides with a provskite structure excel with outstanding luminescent properties. Some of them are important as perspective laser materials with respect to spectral properties such as absorption and lifetime of luminescence, mechanical and thermal properties. In practice, however, perovskites as active laser materials have not proven to be very useful because they are prone to twins, cords and other structural and optical disturbances, as well as to the formation of color centers resulting from the single crystal shining by xenon light. These color centers have an extremely negative effect on the laser function and their formation is caused by the combination of even small amounts of some ions of transition elements such as iron and hydroxyl ions or only by the presence of other ions, for example molybdenum in a higher valence state.

Both of these shortcomings can be overcome by the method of growing single crystals of yttrium aluminates and / or lanthanides with a perovskite structure, which consists in that the single crystals are grown from a melt of oxides containing 1 + 0.05 gram of aluminum per vacuum of yttrium and / or lanthanides. at a residual gas pressure of not more than 0,01 Pa, per2

283 997, which is heated under vacuum at a residual gas pressure of not more than 0.01 Pa at a temperature of 1450 to 1800 ° C for 2 to 30 h.

Growing in a stucco achieves the growth of structurally perfect and at the same time relatively chemically very pure single crystals, which however contains a slight excess of metal ions and therefore has a light brown shade, especially in the axial part. Most of the excess metal ions are removed by subsequent heating under vacuum, even without prior cooling, directly after the cultivation is stopped. Optionally, the treated single crystal may be further heated in a dry, oxygen-containing atmosphere without the risk of color center formation, which may be important for adjusting the overall valence state of some lanthanides, such as terbium or europium, and for heat treating finished product surfaces such as laser bars.

Thus, in particular, aluminum neodymium ions activated by neodymium ions for the lasers as well as monocrystals activated by ions of other lanthanides free of undesired transition element ions can be grown in particular by the method of the invention.

Example 1

From a melt of 49,25 mol% yttrium oxide,

0.8 mol% of neodymium oxide and 49.95 mol% of alumina Contained in 250 ml tungsten crucible, yeast-aluminum perovskite monocrystals containing neodymium containing odyθ ^ QgNdQ _O11 A1O were grown under vacuum at a residual gas pressure of 3x10 '^ Pa. with a diameter of 22 mm and a length of 95 mra. After cultivation, the single crystal continued to be heated for 25 hours directly in the cultivation apparatus by measuring 1780 ° C at the bottom and 1520 ° C at the top. After cooling, the single crystal was processed into 5 mm diameter and 75 mm long laser bars. , which were tested in a pulsed laser equipped with a xenon lamp, a silver-plated reflector and an output mirror with a reflectivity of 25% for a wavelength of 1060 ± 20 nm. When pumping was 60 J, the output energy was

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800 mJ. Laser rods made of single crystal immediately cooled after cultivation, when the temperature of single crystals dropped below 1400 ° C during the first hour, under the same conditions, the laser rods produced therefrom only output 310 mJ.

Example 2

In a 300 ml molybdenum crucible, an oxides mixture of 49.32 mol% lanthanum oxide, 0.6 mol% neodymium oxide, and 50.08 mol% alumina was molten under vacuum at a residual gas pressure of 8x10 8 Pa. Single crystals of La _Q 935 ¹ ¾ θ ^ ΑΙΟ ^ length 90 mm were grown from the melt. The 6 x 6 x 80 mm prisms were cut from the single crystals and heated under vacuum at a residual gas pressure of 5x10 4 Pa for 6 h at 1720 ° C.

Laser bars of the same dimensions as in Example 4 were made from the chips and tested in the same manner as in Example 1. The output energy was 985 mJ. Laser bars made of chips that were not further heated exhibited an output energy of only 420 mJ.

SUBJECT OF THE INVENTION

Claims (1)

SUBJECT OF THE INVENTION Method for growing single-crystal yttrium aluminates and / or lanthanides with a perovskite structure, characterized in that the single crystals are grown from a melt containing for each gram yttrium and / or lanthanides 1 + 0.05 grams of aluminum under vacuum at a residual gas pressure of not more than 0, They are then heated under vacuum at a residual gas pressure of not more than 0.01 Pa at a temperature of 1450 to 1800 ° C for 2 to 30 hours.