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Trans. Korean. Inst. Elect. Eng.
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2022-08
(Vol.71 No.8)
10.5370/KIEE.2022.71.8.1135
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References
1
M. A. Lieberman, A. J. Lichtenberg, 2005, Principles of plasma discharges and materials processing, John Wiley & Sons
2
J. Hopwood, 1992, Review of inductively coupled plasmas for plasma processing, Plasma Sources Science and Technology, Vol. 1
3
V. A. Godyak, R. B. Piejak, B. M. Alexandrovich, Nov 2002, Electron energy distribution function measurements and plasma parameters in inductively coupled argon plasma, Plasma Sources Science & Technology, Vol. 11, pp. 525-543
4
F. F. Chen, J. P. Chang, 2003, Lecture notes on principles of plasma processing, Springer Science & Business Media
5
N. S. J. Braithwaite, T. Matsuura, 2004, Plasma processing of materials the atomic scale, Contributions to Plasma Physics, Vol. 44, pp. 478-484
6
J. H. Keller, J. C. Forster, M. S. Barnes, 1993, Novel radio‐frequency induction plasma processing techniques, Journal of Vacuum Science & Technology A: Vacuum, Surfaces, Vol. and films, No. 11, pp. 2487-2491
7
R. Shul, G. McClellan, S. Casalnuovo, D. Rieger, S. Pearton, C. Constantine, C. Barratt, R. Karlicek Jr, C. Tran, M. Schurman, 1996, Inductively coupled plasma etching of GaN, Applied physics letters, Vol. 69, pp. 1119-1121
8
R. Shul, G. McClellan, R. Briggs, D. Rieger, S. Pearton, C. Abernathy, J. Lee, C. Constantine, C. Barratt, 1997, High- density plasma etching of compound semiconductors, Journal of Vacuum Science & Technology A: Vacuum Surfaces and Films, Vol. 15, pp. 633-637
9
F. Khan, I. Adesida, 1999, High rate etching of SiC using inductively coupled plasma reactive ion etching in SF 6-based gas mixtures, Applied physics letters, Vol. 75, pp. 2268-2270
10
G. A. Hebner, P. A. Miller, 2000, Electron and negative ion densities in C 2 F 6 and CHF 3 containing inductively coupled discharges, Journal of Applied Physics, Vol. 87, pp. 7660-7666
11
N. Plank, M. Blauw, E. Van der Drift, R. Cheung, 2003, The etching of silicon carbide in inductively coupled SF6/O2 plasma, Journal of Physics D: Applied Physics, Vol. 36
12
K. M. Dowling, E. H. Ransom, D. G. Senesky, 2016, Profile evolution of high aspect ratio silicon carbide trenches by inductive coupled plasma etching, Journal of Microelectromechanical Systems, Vol. 26, pp. 135-142
13
S. Mikhailovich, A. Y. Pavlov, K. Tomosh, Y. V. Fedorov, 2018, Low-Energy Defectless Dry Etching of the AlGaN/AlN/GaN HEMT Barrier Layer, Technical Physics Letters, Vol. 44, pp. 435-437
14
H. Saidi, W. Aloui, A. Bouazizi, 2018, Bias voltage effect on the dielectric properties of organic–inorganic blend SiNWs elaborated via metal assisted chemical etching, Journal of Materials Science: Materials in Electronics, Vol. 29, pp. 18051-18058
15
T. Denda, Y. Miyoshi, Y. Komukai, T. Goto, Z. L. Petrović, T. Makabe, 2004, Functional separation in two frequency operation of an inductively coupled plasma, Journal of applied physics, Vol. 95, pp. 870-876
16
H. C. Lee, C. W. Chung, 2012, Effect of RF Bias on Electron Energy Distributions and Plasma Parameters in Inductively Coupled Plasma, Journal of the Korean Vacuum Society, Vol. 21, pp. -
17
C.-W. Chung, 2013, PLASMA ELECTRONICS, gyomoon
18
J.-H. Kim, Y.-H. Hong, C.-W. Chung, 2019, High efficient plasma generation in an inductively coupled plasma using a passive resonant antenna, Plasma Sources Science and Technology, Vol. 28, pp. 105018
19
H.-J. Hwang, Y.-C. Kim, C.-W. Chung, 2013, Method for measurement of transferred power to plasma in inductive discharges, Thin solid films, Vol. 547, pp. 9-12
20
K. Suzuki, K. Nakamura, H. Ohkubo, H. Sugai, 1998, Power transfer efficiency and mode jump in an inductive RF discharge, Plasma Sources Science and Technology, Vol. 7, No. 13
21
J. Hopwood, 1994, Planar RF induction plasma coupling efficiency, Plasma Sources Science and Technology, Vol. 3, No. 460
22
V. Godyak, R. Piejak, B. Alexandrovich, 1999, Experimental setup and electrical characteristics of an inductively coupled plasma, Journal of applied physics, Vol. 85, pp. 703-712
23
V. A. Godyak, 2011, Electrical and plasma parameters of ICP with high coupling efficiency, Plasma Sources Science and Technology, Vol. 20, No. 025004
24
T. Nelis, M. Aeberhard, L. Rohr, J. Michler, P. Belenguer, P. Guillot, L. Thérèse, 2007, A simple method for measuring plasma power in rf-GDOES instruments, Analytical and bioanalytical chemistry, Vol. 389, pp. 763-767
25
Computer Simulation Technology (CST) Studio Suite, https://www.cst.com
26
V. Vahedi, M. A. Lieberman, G. DiPeso, T. D. Rognlien, D. Hewett, 1995, Analytic model of power deposition in inductively coupled plasma sources, Journal of Applied Physics, Vol. 78
27
COMSOL Multiphysics® v. 6.0, Plasma Module User's Guide, Stockholm, Sweden: COMSOL AB, 2022. Available online:https://doc.comsol.com/
28
J. H. Kim, Y. C. Kim, C. W. Chung, 2015, Experimental investigation on plasma parameter profiles on a wafer level with reactor gap lengths in an inductively coupled plasma, Physics of Plasmas, Vol. 22, No. 073502
