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Proceedings of the 2nd IAEA Research Co-ordination Meeting of the Co-ordinated Research Project on Dense Magnetized Plasma 1-3 June 2005, Kudowa Zdrój, Poland
Języki publikacji
Abstrakty
Researches on the plasma jet source and injection of hydrogen plasma and neutral gas jets into the Globus-M spherical tokamak are presented. A novel source of dense plasma with high directed velocity is designed, constructed and investigated. This is a double stage system consisting of an intense source utilizing titanium-hydride grains for neutral gas production and a conventional pulsed coaxial accelerator. Optimization of the accelerator parameters, so as to achieve a maximum possible flow velocity with a limited discharge current and a reasonable length of the coaxial electrodes is performed. The calculations are compared with the experiment. A test bed is used for investigation of the intense plasma jet generated by a plasma gun. Plasma jet parameters, among them pressure distribution across the jet, flow velocity, plasma density etc., were measured. Plasma jets with densities of up to 1022 m 3, total numbers of accelerated particles (1 5) . 1019, and flow velocities of 50 100 km/s were successfully injected into the plasma column of the Globus-M tokamak. Interferometric and Thomson scattering measurements confirmed a deep jet penetration and a fast density rise (<0.5 ms) at all spatial points up to the radius r H 0.3a. The injection did not result in plasma degradation.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
85--92
Opis fizyczny
Bibliogr. 11 poz., rys.
Twórcy
autor
autor
autor
autor
autor
autor
- A. F. Ioffe Physico-Technical Institute, 26 Politechnicheskaya Str., 194021 St. Petersburg, Russia, Tel.: +7 812 2479121, Fax: +7 812 2471017, voronin.mhd@mail.ioffe.ru
Bibliografia
- 1. Abramova KB, Voronin AV, Gusev VK et al. (2005)Injection of high-density plasma into the Globus-M spherical tokamak. Plasma Phys Rep 31:721−729
- 2. Arcimovitch LA, Lukyanov SYu, Podgorny IM, Chuvatin SA (1957) Electrodynamic acceleration of plasma clusters. Soviet Journal of Experimental and Theoretical Physics 33:3−8
- 3. Gusev VK, Burtseva TA, Dech AV et al. (2001) Plasma formation and first OH experiments in the Globus-M tokamak. Nucl Fusion 41:919−925
- 4. ITER Physics Expert Group on Divertor, ITER Physics Expert Group on Divertor Modelling and Database and ITER Physics Basis Editors (1999) Chapter 4: Power and particle control. Nucl Fusion 39:2391−2469
- 5. ITER Physics Expert Group on Energetic Particles,Heating and Current Drive and ITER Physics Basis Editors (1999) Chapter 5: Physics of energetic ions. Nucl Fusion 39:2471−2495
- 6. Kolesnikov PM (1971) Electrodynamic acceleration of plasma. Atomizdat, Moscow
- 7. Marshall J (1960) Performance of a hydromagnetic plasma gun. Phys Fluids 3:134−135
- 8. Milora SL, Houlberg WA, Lengyel LL, Mertens V (1995) Pellet fuelling. Nucl Fusion 35:657−754
- 9. Raman R, Martin F, Haddad E et al. (1997) Experimental demonstration of tokamak fuelling by compact toroid injection. Nucl Fusion 37:967−972
- 10. Voronin AV, Gusev VK, Petrov YuV et al. (2005) High kinetic energy plasma jet generation and its injection into the Globus-M spherical tokamak. Nucl Fusion 45:1039−1045
- 11.Voronin AV, Hellblom KG (2001) Generation of dense plasma clusters with high velocity. Plasma Phys Controlled Fusion 43:1583−1592
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUJ6-0004-0012
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