GLAST (tokamak)

GLAST
Type	Spherical
Major radius	15 cm^[1]^[2]
Minor Radius	9 cm^[2]
Magnetic field	0.4 T^[2]
Heating	400eV^[2]
Plasma current	50 kA^[2]
Location	Islamabad, Pakistan^[2]

GLAST^[3] (GLAss Spherical Tokamak),^[3] is a small spherical magnetic confinement tokamak fusion reactor installed at the National Tokamak Fusion Program (NTFP) by the Pakistan Atomic Energy Commission (PAEC) in 2008.^[4] It is a Magnetic confinement fusion spherical tokamak with an insulating vacuum vessel. The device is primarily used to conduct scientific studies and experiments to identify the mechanism responsible for current generation during start-up phase of the tokamak discharge.^[5] The tokamak was developed by the PAEC indigenously, and offers research on control plasmas.^[6] Initial plasma in GLAST-II is achieved successfully. Plasma diagnostics including triple Langmuir probe and Optical Emission Spectroscopy systems are developed to measure basic plasma parameters such as electron temperature, electron number density, floating potential and impurity content in the discharge. Triple Langmuir probe is capable to record instantaneous plasma characteristics.^[5-8] Plasma current is then enhanced up to 5 kA by applying a small vertical magnetic field that provides additional plasma heating and shaping ^[9].

Notes

↑ "Spherical Tokamaks".
1 2 3 4 5 6 Ahmad, Zahoor; SHR Rizvi. "Parametric Study of Equilibrium and Stability Analysis of HT-6M Tokamak in the Presence of Flow" (google docs). Pakistan Institute of Nuclear Science and Technology (PINSTECH). National Fusion Power Program. Retrieved 6 January 2013.
1 2 PAEC. "Comparison table of Spherical Tokamaks" (PDF). Tokamak. Retrieved 5 January 2013.
↑ Griffith, Sabina. "Pakistan launches national fusion program". ITER Organization. ITER Organization. Retrieved 5 January 2013.
↑ "24th IAEA Fusion Energy Conference -". PAEC. PAEC at IAEA. Retrieved 5 January 2013.
↑ "Pakistan launches national fusion program". ITER. International Thermonuclear Experimental Reactor. Retrieved 6 January 2013.

 [7]. Qayyum et al., Time-resolved measurement of plasma parameters by means of triple probe, REVIEW OF SCIENTIFIC INSTRUMENTS 84, 123502 (2013)
 [8]. Qayyum et al., Triple-probe Diagnostic Measurements in Plasma of GLAST Spherical Tokamak, J Fusion Energ, 35 (2016) 205-213
 [9].Initial Plasma Formation in the GLAST-II Spherical Tokamak
     S. Hussain, A. Qayyum, Rafaqat Ali, M.A. Naveed, Mehboob Sadiq, R. Khan, Z. Ahmad, S. Ahmad, F. Deeba, Najam us Saqib, A Ali, A. Ahmed, M. Nazir, H. A. Majeed,   S. Batool, M. A. Javed, N. Ahmed, J. Fusion Energ. 35 (2016) 529-537

"Pakistan launches national fusion program". ITER. International Thermonuclear Experimental Reactor. Retrieved 6 January 2013.

Fusion experimental devices by confinement method

Magnetic

Tokamak

International	ITER DEMO PROTO

Americas	STOR-M Alcator C-Mod DIII-D UCLA ET LTX NSTX-U Pegasus PBX-M TEXT TFTR ETE Novillo

Asia and Australia	LT-1 CT-6 CFETR EAST HL-1(M) HL-2A HT-6(B, M) HT-7(U) KT-5 SUNIST ADITYA SST-1 IR-T1 JT-60 QUEST KTM GLAST KSTAR KDEMO

Europe	JET COMPASS GOLEM TJ-I Tore Supra TFR ASDEX Upgrade TEXTOR FTU IGNITOR RTP ISTTOK T-3 T-4 T-10 T-15 TCV START MAST MAST-U

Stellarator

Americas	ATF CAT HSX NCSX QPS SCR-1

Asia and Australia	H-1NF Lingyun CHS Heliotron J LHD TU-Heliac

Europe	UST-1 UST-2 TJ-IU TJ-II TJ-K WEGA Wendelstein 7-AS Wendelstein 7-X Uragan-1 Uragan-2(M) Uragan-3(M) L-2M

RFP

RFX
TPE-RX
EXTRAP T2R
MST

Other

Inertial

Laser

Americas	NIF OMEGA Nova Nike Shiva Argus Cyclops Janus Long path

Asia	SG-I SG-II SG-III SG-IV GEKKO XII

Europe	HiPER Asterix IV (PALS) LMJ LULI2000 ISKRA Vulcan

Non-laser

Qiangguang-1
PTS
Z machine
PACER

International Fusion Materials Irradiation Facility

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