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You searched for +publisher:"University of Texas – Austin" +contributor:("Breizman, Boris N."). Showing records 1 – 7 of 7 total matches.

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University of Texas – Austin

1. Li, Meng, 1991-. Alfvén modes and wave-particle interaction in a tokamak.

Degree: PhD, Physics, 2017, University of Texas – Austin

 This work is motivated by the nonlinear wave-particle interaction problems. To build a self-consistent theory, we consider eigenmodes of the bulk plasma as well as… (more)

Subjects/Keywords: Magnetic confinement fusion; Wave-particle interaction; Magnetohydrodynamics; Aflven modes; Action-angle variables

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APA (6th Edition):

Li, Meng, 1. (2017). Alfvén modes and wave-particle interaction in a tokamak. (Doctoral Dissertation). University of Texas – Austin. Retrieved from http://hdl.handle.net/2152/63061

Chicago Manual of Style (16th Edition):

Li, Meng, 1991-. “Alfvén modes and wave-particle interaction in a tokamak.” 2017. Doctoral Dissertation, University of Texas – Austin. Accessed April 11, 2021. http://hdl.handle.net/2152/63061.

MLA Handbook (7th Edition):

Li, Meng, 1991-. “Alfvén modes and wave-particle interaction in a tokamak.” 2017. Web. 11 Apr 2021.

Vancouver:

Li, Meng 1. Alfvén modes and wave-particle interaction in a tokamak. [Internet] [Doctoral dissertation]. University of Texas – Austin; 2017. [cited 2021 Apr 11]. Available from: http://hdl.handle.net/2152/63061.

Council of Science Editors:

Li, Meng 1. Alfvén modes and wave-particle interaction in a tokamak. [Doctoral Dissertation]. University of Texas – Austin; 2017. Available from: http://hdl.handle.net/2152/63061


University of Texas – Austin

2. -2450-2315. Stability analyses of auroral substorm onset and solar wind.

Degree: PhD, Physics, 2020, University of Texas – Austin

 Pertaining to the stability analysis of auroral substorm onset, a geometric wedge model of the near-earth nightside plasma sheet is used to derive a wave… (more)

Subjects/Keywords: Aurora; Ionosphere; Magnetosphere; Substorm; Solar wind; Coronal mass ejection; Shear flow; Turbulence; Stability analysis; Nonlinear dynamics

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APA (6th Edition):

-2450-2315. (2020). Stability analyses of auroral substorm onset and solar wind. (Doctoral Dissertation). University of Texas – Austin. Retrieved from http://dx.doi.org/10.26153/tsw/9553

Note: this citation may be lacking information needed for this citation format:
Author name may be incomplete

Chicago Manual of Style (16th Edition):

-2450-2315. “Stability analyses of auroral substorm onset and solar wind.” 2020. Doctoral Dissertation, University of Texas – Austin. Accessed April 11, 2021. http://dx.doi.org/10.26153/tsw/9553.

Note: this citation may be lacking information needed for this citation format:
Author name may be incomplete

MLA Handbook (7th Edition):

-2450-2315. “Stability analyses of auroral substorm onset and solar wind.” 2020. Web. 11 Apr 2021.

Note: this citation may be lacking information needed for this citation format:
Author name may be incomplete

Vancouver:

-2450-2315. Stability analyses of auroral substorm onset and solar wind. [Internet] [Doctoral dissertation]. University of Texas – Austin; 2020. [cited 2021 Apr 11]. Available from: http://dx.doi.org/10.26153/tsw/9553.

Note: this citation may be lacking information needed for this citation format:
Author name may be incomplete

Council of Science Editors:

-2450-2315. Stability analyses of auroral substorm onset and solar wind. [Doctoral Dissertation]. University of Texas – Austin; 2020. Available from: http://dx.doi.org/10.26153/tsw/9553

Note: this citation may be lacking information needed for this citation format:
Author name may be incomplete


University of Texas – Austin

3. Fontanilla, Adrian Kristopher. Tokamak disruptions : investigations of symptoms and treatments.

Degree: PhD, Physics, 2019, University of Texas – Austin

 Plasma disruptions are a catastrophic loss of confinement that ultimately concludes with the release of the thermal and magnetic energy stored in the vessel containing… (more)

Subjects/Keywords: Plasma; Kinetic equation; Runaway electrons; Pellet ablation; Disruption

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APA (6th Edition):

Fontanilla, A. K. (2019). Tokamak disruptions : investigations of symptoms and treatments. (Doctoral Dissertation). University of Texas – Austin. Retrieved from http://dx.doi.org/10.26153/tsw/5346

Chicago Manual of Style (16th Edition):

Fontanilla, Adrian Kristopher. “Tokamak disruptions : investigations of symptoms and treatments.” 2019. Doctoral Dissertation, University of Texas – Austin. Accessed April 11, 2021. http://dx.doi.org/10.26153/tsw/5346.

MLA Handbook (7th Edition):

Fontanilla, Adrian Kristopher. “Tokamak disruptions : investigations of symptoms and treatments.” 2019. Web. 11 Apr 2021.

Vancouver:

Fontanilla AK. Tokamak disruptions : investigations of symptoms and treatments. [Internet] [Doctoral dissertation]. University of Texas – Austin; 2019. [cited 2021 Apr 11]. Available from: http://dx.doi.org/10.26153/tsw/5346.

Council of Science Editors:

Fontanilla AK. Tokamak disruptions : investigations of symptoms and treatments. [Doctoral Dissertation]. University of Texas – Austin; 2019. Available from: http://dx.doi.org/10.26153/tsw/5346

4. Chen, Guangye, 1976-. A self-consistent model of helicon discharge.

Degree: PhD, Aerospace Engineering, 2008, University of Texas – Austin

 We developed a self-consistent model of helicon discharges, motivated by a number of applications. One example is a plasma-based space propulsion system that employs a… (more)

Subjects/Keywords: Whistlers (Radio meteorology); Electromagnetic waves; Plasma (Ionized gases)

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APA (6th Edition):

Chen, Guangye, 1. (2008). A self-consistent model of helicon discharge. (Doctoral Dissertation). University of Texas – Austin. Retrieved from http://hdl.handle.net/2152/17789

Chicago Manual of Style (16th Edition):

Chen, Guangye, 1976-. “A self-consistent model of helicon discharge.” 2008. Doctoral Dissertation, University of Texas – Austin. Accessed April 11, 2021. http://hdl.handle.net/2152/17789.

MLA Handbook (7th Edition):

Chen, Guangye, 1976-. “A self-consistent model of helicon discharge.” 2008. Web. 11 Apr 2021.

Vancouver:

Chen, Guangye 1. A self-consistent model of helicon discharge. [Internet] [Doctoral dissertation]. University of Texas – Austin; 2008. [cited 2021 Apr 11]. Available from: http://hdl.handle.net/2152/17789.

Council of Science Editors:

Chen, Guangye 1. A self-consistent model of helicon discharge. [Doctoral Dissertation]. University of Texas – Austin; 2008. Available from: http://hdl.handle.net/2152/17789

5. Tushentsov, Mikhail R. Numerical modeling of plasma detachment from a magnetic nozzle.

Degree: PhD, Physics, 2010, University of Texas – Austin

 The numerical simulation and modeling of plasma detachment from a magnetic nozzle is presented. The detachment problem is of key importance to the plasma-based propulsion… (more)

Subjects/Keywords: Magnetic nozzle; VASIMR; Plasma detachment; Plasma flow; Plasma-based propulsion

Page 1 Page 2 Page 3 Page 4 Page 5 Page 6 Page 7

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APA (6th Edition):

Tushentsov, M. R. (2010). Numerical modeling of plasma detachment from a magnetic nozzle. (Doctoral Dissertation). University of Texas – Austin. Retrieved from http://hdl.handle.net/2152/ETD-UT-2010-12-2458

Chicago Manual of Style (16th Edition):

Tushentsov, Mikhail R. “Numerical modeling of plasma detachment from a magnetic nozzle.” 2010. Doctoral Dissertation, University of Texas – Austin. Accessed April 11, 2021. http://hdl.handle.net/2152/ETD-UT-2010-12-2458.

MLA Handbook (7th Edition):

Tushentsov, Mikhail R. “Numerical modeling of plasma detachment from a magnetic nozzle.” 2010. Web. 11 Apr 2021.

Vancouver:

Tushentsov MR. Numerical modeling of plasma detachment from a magnetic nozzle. [Internet] [Doctoral dissertation]. University of Texas – Austin; 2010. [cited 2021 Apr 11]. Available from: http://hdl.handle.net/2152/ETD-UT-2010-12-2458.

Council of Science Editors:

Tushentsov MR. Numerical modeling of plasma detachment from a magnetic nozzle. [Doctoral Dissertation]. University of Texas – Austin; 2010. Available from: http://hdl.handle.net/2152/ETD-UT-2010-12-2458

6. -1430-6073. Explosive evolution of near-threshold kinetic instabilities.

Degree: PhD, Physics, 2017, University of Texas – Austin

 In the past, studies of waves close to marginal stability have revealed a rich variety of behavior in different physical contexts. One of the possible… (more)

Subjects/Keywords: Physics; Plasma physics; Nuclear fusion; Nonlinear physics; Wave instabilities; Nonlinear waves

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APA (6th Edition):

-1430-6073. (2017). Explosive evolution of near-threshold kinetic instabilities. (Doctoral Dissertation). University of Texas – Austin. Retrieved from http://hdl.handle.net/2152/62258

Note: this citation may be lacking information needed for this citation format:
Author name may be incomplete

Chicago Manual of Style (16th Edition):

-1430-6073. “Explosive evolution of near-threshold kinetic instabilities.” 2017. Doctoral Dissertation, University of Texas – Austin. Accessed April 11, 2021. http://hdl.handle.net/2152/62258.

Note: this citation may be lacking information needed for this citation format:
Author name may be incomplete

MLA Handbook (7th Edition):

-1430-6073. “Explosive evolution of near-threshold kinetic instabilities.” 2017. Web. 11 Apr 2021.

Note: this citation may be lacking information needed for this citation format:
Author name may be incomplete

Vancouver:

-1430-6073. Explosive evolution of near-threshold kinetic instabilities. [Internet] [Doctoral dissertation]. University of Texas – Austin; 2017. [cited 2021 Apr 11]. Available from: http://hdl.handle.net/2152/62258.

Note: this citation may be lacking information needed for this citation format:
Author name may be incomplete

Council of Science Editors:

-1430-6073. Explosive evolution of near-threshold kinetic instabilities. [Doctoral Dissertation]. University of Texas – Austin; 2017. Available from: http://hdl.handle.net/2152/62258

Note: this citation may be lacking information needed for this citation format:
Author name may be incomplete


University of Texas – Austin

7. Fomytsʹkyi, Mykhailo. Numerical simulation of high intensity laser-plasma interaction.

Degree: PhD, Physics, 2004, University of Texas – Austin

Subjects/Keywords: Laser-plasma interactions; Microclusters; Particle accelerators

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APA (6th Edition):

Fomytsʹkyi, M. (2004). Numerical simulation of high intensity laser-plasma interaction. (Doctoral Dissertation). University of Texas – Austin. Retrieved from http://hdl.handle.net/2152/1165

Chicago Manual of Style (16th Edition):

Fomytsʹkyi, Mykhailo. “Numerical simulation of high intensity laser-plasma interaction.” 2004. Doctoral Dissertation, University of Texas – Austin. Accessed April 11, 2021. http://hdl.handle.net/2152/1165.

MLA Handbook (7th Edition):

Fomytsʹkyi, Mykhailo. “Numerical simulation of high intensity laser-plasma interaction.” 2004. Web. 11 Apr 2021.

Vancouver:

Fomytsʹkyi M. Numerical simulation of high intensity laser-plasma interaction. [Internet] [Doctoral dissertation]. University of Texas – Austin; 2004. [cited 2021 Apr 11]. Available from: http://hdl.handle.net/2152/1165.

Council of Science Editors:

Fomytsʹkyi M. Numerical simulation of high intensity laser-plasma interaction. [Doctoral Dissertation]. University of Texas – Austin; 2004. Available from: http://hdl.handle.net/2152/1165

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