Bulk crystals of β-Ga2O3 were successfully grown by the edge-defined film-fed growth method. The crystalline quality of the obtained crystals was analyzed by the method of x-ray diffractometry. The full width at half maximum of the rocking curve was about 72 arcsec. The optical bandgap was determined by analyzing the optical transmission spectra and amounted to 4.7 eV. The hot disk method was used to obtain the thermal conductivity of the sample along the [001] direction in the temperature range from 30 to 120 °C. The maximum value of thermal conductivity obtained at 30 °C was 9.25 W/(m K).
REFERENCES
1.
J. A.
Spencer
, A. L.
Mock
, A. G.
Jacobs
, M.
Schubert
, Y.
Zhang
, and M. J.
Tadjer
, Appl. Phys. Rev.
9
, 011315
(2022
). 2.
J.
Zhang
, J.
Shi
, D.-C.
Qi
, L.
Chen
, and K. H. L.
Zhang
, APL Mater.
8
, 020906
(2020
). 3.
M. J.
Tadjer
et al, J. Phys. D: Appl. Phys.
54
, 034005
(2021
). 4.
D. A.
Bauman
et al, Acta Astronaut.
180
, 125
(2021
). 5.
L.
Meng
, A. F. M. A. U.
Bhuiyan
, Z.
Feng
, H.-L.
Huang
, J.
Hwang
, and Hongping
Zhao
, J. Vac. Sci. Technol. A
40
, 062706
(2022
). 6.
M. A.
Mastro
, M. J.
Tadjer
, J.
Kim
, F.
Ren
, and S. J.
Pearton
, J. Vac. Sci. Technol. A
39
, 023412
(2021
). 7.
Z.
Galazka
et al, Cryst. Res. Technol.
45
, 1229
(2010
). 8.
K.
Hoshikwa
, E.
Ohba
, T.
Kobayashi
, J.
Yanagisawa
, C.
Miyagawa
, and Y.
Nakamura
, J. Cryst. Growth
447
, 36
(2016
). 9.
A. S.
Pratiyush
, U. U.
Muazzam
, S.
Kumar
, P.
Vijayakumar
, S.
Ganesamoorthy
, N.
Subramanian
, R.
Muralidharan
, and D. N.
Nath
, IEEE Photonics Technol. Lett.
31
, 923
(2019
). 10.
H.
Aida
, K.
Nishiguchi
, H.
Takeda
, N.
Aota
, K.
Sunakawa
, and Y.
Yaguchi
, Jpn. J. Appl. Phys.
47
, 8506
(2008
). 11.
P. I.
Antonov
and V. I.
Kurlov
, Prog. Cryst. Growth Charact. Mater.
44
, 63
(2002
). 12.
Z.
Galazka
, Semicond. Sci. Technol.
33
, 113001
(2018
). 13.
Z.
Galazka
et al, J. Cryst. Growth
529
, 125297
(2020
). 14.
Z.
Galazka
, J. Appl. Phys.
131
, 031103
(2022
). 15.
J. D.
Blevins
, K.
Stevens
, G.
Foundos
, A.
Lindsey
, and L.
Sande
, IEEE Trans. Semicond. Manuf.
32
, 466
(2019
). 16.
K. N.
Heinselman
, D.
Haven
, A.
Zakutayev
, and S. B.
Reese
, Cryst. Growth Des.
22
, 4854
(2022
). 17.
A.
Kuramata
, K.
Koshi
, S.
Watanabe
, Y.
Yamaoka
, T.
Masui
, and S.
Yamakoshi
, Jpn. J. Appl. Phys.
55
, 1202A2
(2016
). 18.
S. N.
Zhang
, X. Z.
Lian
, Y. C.
Ma
, W.
Liu
, Y.
Zhang
, Y.
Xu
, and H.
Cheng
, J. Semicond.
39
, 083003
(2018
). 19.
A.
Langørgen
, C.
Zimmermann
, Y.
Kalmann Frodason
, E.
Førdestrøm Verhoeven
, P.
Michael Weiser
, R.
Michael Karsthof
, J.
Basile Varley
, and L.
Vines
, J. Appl. Phys.
131
, 115702
(2022
). 20.
A. Y.
Polyakov
, A. I.
Kochkova
, A.
Langørgen
, L.
Vines
, A.
Vasilev
, I. V.
Shchemerov
, A. A.
Romanov
, and S. J.
Pearton
, J. Vac. Sci. Technol. A
41
, 023401
(2023
). 21.
Y.
Yao
, Y.
Tsusaka
, K.
Sasaki
, A.
Kuramata
, Y.
Sugawara
, and Y.
Ishikawa
, Appl. Phys. Lett.
121
, 012105
(2022
). 22.
S.
Isaji
, I.
Maeda
, N.
Ogawa
, R.
Kosaka
, N.
Hasuike
, T.
Isshiki
, K.
Kobayashi
, Y.
Yao
, and Y.
Ishikawa
, J. Electron. Mater.
52
, 5093
(2023
). 23.
D. A.
Zakgeim
et al, Tech. Phys. Lett.
46
, 1144
(2020
). 24.
D. A.
Bauman
et al, Phys. Status Solidi A
218
, 2100335
(2021
). 25.
S. E.
Gustafsson
, E.
Karawacki
, and M. N.
Khan
, J. Appl. Phys.
52
, 2596
(1981
). 26.
Y.
He
, Thermochim. Acta
436
, 122
(2005
). 27.
D.
Zakgeim
, D.
Bauman
, D.
Panov
, V.
Spiridonov
, A.
Kremleva
, A.
Smirnov
, M.
Odnoblyudov
, A.
Romanov
, and V.
Bougrov
, Appl. Phys. Express
15
, 025501
(2022
). 28.
S.
Ghose
, S.
Rahman
, L.
Hong
, J. S.
Rojas-Ramirez
, H.
Jin
, K.
Park
, R.
Klie
, and R.
Droopad
, J. Appl. Phys.
122
, 095302
(2017
). 29.
30.
Z.
Guo
, Appl. Phys. Lett.
106
, 111909
(2015
). 2023 Published under an exclusive license by the AVS.
2023
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