Crystal Growth of Quantum Magnets in the Rare-Earth Pyrosilicate Family R2Si2O7 (R = Yb, Er) Using the Optical Floating Zone Method

Abstract: We report on the crystal growth of rare-earth pyrosilicates, R 2Si 2O 7 for R = Yb and Er using the optical floating zone method. The grown crystals comprise members from the family of pyrosilicates where the rare-earth atoms form a distorted honeycomb lattice. C-Yb 2Si 2O 7 is a quantum dimer magnet with field-induced long range magnetic order, while D-Er 2Si 2O 7 is an Ising-type antiferromagnet. Both growths resulted in multi-crystal boules, with cracks forming betwee… Show more

“…We have not been successful in growing single crystals of C-Er 2 Si 2 O 7 via the optical floating zone technique because the high-temperature polymorph, D-Er 2 Si 2 O 7 , is stabilized from the melt instead. 29…”

Néel Ordering in the Distorted Honeycomb Pyrosilicate: C-Er$_{2}$Si$_{2}$O$_{7}$

“…We have not been successful in growing single crystals of C-Er 2 Si 2 O 7 via the optical floating zone technique because the high-temperature polymorph, D-Er 2 Si 2 O 7 , is stabilized from the melt instead. 29…”

Néel Ordering in the Distorted Honeycomb Pyrosilicate: C-Er$_{2}$Si$_{2}$O$_{7}$

“…The temperature of the sharp feature observed in the heat capacity measurements further demonstrates that the FZ-grown Er 2 Si 2 O 7 crystal belongs to the structural type D, because C-type Er 2 Si 2 O 7 orders below T N = 2.50(5) K. 22,24 The results are in agreement with the previous results published on a Er 2 Si 2 O 7 crystal grown using the FZ method. 16 Extensive studies of the magnetic ground state of D-type Er 2 Si 2 O 7 are described elsewhere in a more detailed paper.…”

“…The successful growth of ytterbium and erbium disilicate crystals using optical FZ method 16 has resulted in a resurgence of interest in the magnetic ground states of these compounds. 17,18 Yb 2 Si 2 O 7 is the first Yb 3+ based material that exhibits a quantum dimer magnet (QDM) state, consisting of nearest neighbour spin dimers, with magnetic field-induced order reminiscent of a Bose-Einstein condensate (BEC) phase.…”

“…There have been many attempts to grow crystals of the rare-earth disilicate compounds. Typical routes used to prepare R 2 Si 2 O 7 crystals include the Verneuil, 19 flux, [20][21][22][23][24][25] Czochralski, 8 chemical vapour transport (CVT), 26 floating zone (FZ) 6,16 and micro-pulling-down (µ-PD) 27 techniques. The FZ method of crystal growth has been widely employed in the past for the growth of oxides, and not only is it the ideal technique to produce large, high quality single crystals, but it is also one of the most appropriate methods due to its advantages compared to the conventional techniques of crystal growth.…”

“…Erbium disilicate exists in three polymorphs (see Table 1), a triclinic (P 1) low temperature phase (referred to as B-type), a monoclinic (C2/m) structure (C-type), and a high temperature monoclinic (P 2 1 /b) arrangement (D-type). grown from the melt, by the FZ method will therefore belong to the structural type D. 16 Due to the arrangement of the magnetic ions in the crystallographic structure, forming a distorted honeycomb-like lattice (see Fig. as well as exhibiting a highly anisotropic magnetic behaviour.…”

Optical floating zone crystal growth of rare-earth disilicates, $R\mathbf{_{2}}$Si$\mathbf{_{2}}$O$\mathbf{_{7}}$ ($R=$ Er, Ho, and Tm)

Structural and optical characterization of Gd2SiO5:Tb3+ crystal obtained by optical floating zone method