The Experts below are selected from a list of 243 Experts worldwide ranked by ideXlab platform
Chio-zong Cheng - One of the best experts on this subject based on the ideXlab platform.
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Finite Pressure Effects on Reversed Shear Alfven Eigenmodes
Plasma Physics and Controlled Fusion, 2004Co-Authors: G. J. Kramer, Nikolai Gorelenkov, Raffi Nazikian, Chio-zong ChengAbstract:The inclusion of finite Pressure in ideal magnetohydrodynamic theory can explain the reversed magnetic shear Alfven eigenmodes (RSAE) (or Alfven cascades) that have been observed in several large tokamaks without the need to invoke an energetic particle mechanism for the existence of these modes. The chirping of the RSAE is caused by changes in the minimum of the magnetic safety factor, qmin, while finite Pressure Effects explain the observed non-zero minimum frequency of the RSAE when qmin has a rational value. Finite Pressure Effects also play a dominant role in the existence of the downward chirping RSAE branch.
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Finite Pressure Effects on Reversed Shear Alfven Eigenmodes
2004Co-Authors: G. J. Kramer, Nikolai Gorelenkov, Raffi Nazikian, Chio-zong ChengAbstract:The inclusion of finite Pressure in ideal-magnetohydrodynamic (MHD) theory can explain the Reversed magnetic Shear Alfven Eigenmodes (RSAE) (or Alfven cascades) that have been observed in several large tokamaks without the need to invoke the energetic particle mechanism for the existence of these modes. The chirping of the RSAEs is cased by changes in the minimum of the magnetic safety factor, q(sub)min, while finite Pressure Effects explains the observed non-zero minimum frequency of the RSAE when qmin has a rational value. Finite Pressure Effects also play a dominant role in the existence of the downward chirping RSAE branch.
G. J. Kramer - One of the best experts on this subject based on the ideXlab platform.
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Finite Pressure Effects on Reversed Shear Alfven Eigenmodes
Plasma Physics and Controlled Fusion, 2004Co-Authors: G. J. Kramer, Nikolai Gorelenkov, Raffi Nazikian, Chio-zong ChengAbstract:The inclusion of finite Pressure in ideal magnetohydrodynamic theory can explain the reversed magnetic shear Alfven eigenmodes (RSAE) (or Alfven cascades) that have been observed in several large tokamaks without the need to invoke an energetic particle mechanism for the existence of these modes. The chirping of the RSAE is caused by changes in the minimum of the magnetic safety factor, qmin, while finite Pressure Effects explain the observed non-zero minimum frequency of the RSAE when qmin has a rational value. Finite Pressure Effects also play a dominant role in the existence of the downward chirping RSAE branch.
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Finite Pressure Effects on Reversed Shear Alfven Eigenmodes
2004Co-Authors: G. J. Kramer, Nikolai Gorelenkov, Raffi Nazikian, Chio-zong ChengAbstract:The inclusion of finite Pressure in ideal-magnetohydrodynamic (MHD) theory can explain the Reversed magnetic Shear Alfven Eigenmodes (RSAE) (or Alfven cascades) that have been observed in several large tokamaks without the need to invoke the energetic particle mechanism for the existence of these modes. The chirping of the RSAEs is cased by changes in the minimum of the magnetic safety factor, q(sub)min, while finite Pressure Effects explains the observed non-zero minimum frequency of the RSAE when qmin has a rational value. Finite Pressure Effects also play a dominant role in the existence of the downward chirping RSAE branch.
Nikolai Gorelenkov - One of the best experts on this subject based on the ideXlab platform.
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Finite Pressure Effects on Reversed Shear Alfven Eigenmodes
Plasma Physics and Controlled Fusion, 2004Co-Authors: G. J. Kramer, Nikolai Gorelenkov, Raffi Nazikian, Chio-zong ChengAbstract:The inclusion of finite Pressure in ideal magnetohydrodynamic theory can explain the reversed magnetic shear Alfven eigenmodes (RSAE) (or Alfven cascades) that have been observed in several large tokamaks without the need to invoke an energetic particle mechanism for the existence of these modes. The chirping of the RSAE is caused by changes in the minimum of the magnetic safety factor, qmin, while finite Pressure Effects explain the observed non-zero minimum frequency of the RSAE when qmin has a rational value. Finite Pressure Effects also play a dominant role in the existence of the downward chirping RSAE branch.
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Finite Pressure Effects on Reversed Shear Alfven Eigenmodes
2004Co-Authors: G. J. Kramer, Nikolai Gorelenkov, Raffi Nazikian, Chio-zong ChengAbstract:The inclusion of finite Pressure in ideal-magnetohydrodynamic (MHD) theory can explain the Reversed magnetic Shear Alfven Eigenmodes (RSAE) (or Alfven cascades) that have been observed in several large tokamaks without the need to invoke the energetic particle mechanism for the existence of these modes. The chirping of the RSAEs is cased by changes in the minimum of the magnetic safety factor, q(sub)min, while finite Pressure Effects explains the observed non-zero minimum frequency of the RSAE when qmin has a rational value. Finite Pressure Effects also play a dominant role in the existence of the downward chirping RSAE branch.
Raffi Nazikian - One of the best experts on this subject based on the ideXlab platform.
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Finite Pressure Effects on Reversed Shear Alfven Eigenmodes
Plasma Physics and Controlled Fusion, 2004Co-Authors: G. J. Kramer, Nikolai Gorelenkov, Raffi Nazikian, Chio-zong ChengAbstract:The inclusion of finite Pressure in ideal magnetohydrodynamic theory can explain the reversed magnetic shear Alfven eigenmodes (RSAE) (or Alfven cascades) that have been observed in several large tokamaks without the need to invoke an energetic particle mechanism for the existence of these modes. The chirping of the RSAE is caused by changes in the minimum of the magnetic safety factor, qmin, while finite Pressure Effects explain the observed non-zero minimum frequency of the RSAE when qmin has a rational value. Finite Pressure Effects also play a dominant role in the existence of the downward chirping RSAE branch.
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Finite Pressure Effects on Reversed Shear Alfven Eigenmodes
2004Co-Authors: G. J. Kramer, Nikolai Gorelenkov, Raffi Nazikian, Chio-zong ChengAbstract:The inclusion of finite Pressure in ideal-magnetohydrodynamic (MHD) theory can explain the Reversed magnetic Shear Alfven Eigenmodes (RSAE) (or Alfven cascades) that have been observed in several large tokamaks without the need to invoke the energetic particle mechanism for the existence of these modes. The chirping of the RSAEs is cased by changes in the minimum of the magnetic safety factor, q(sub)min, while finite Pressure Effects explains the observed non-zero minimum frequency of the RSAE when qmin has a rational value. Finite Pressure Effects also play a dominant role in the existence of the downward chirping RSAE branch.
Yogendra M. Gupta - One of the best experts on this subject based on the ideXlab platform.
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Density Functional Theory Calculations of Pressure Effects on the Vibrational Structure of α-RDX
The journal of physical chemistry. A, 2008Co-Authors: Maosheng Miao, Zbigniew A. Dreger, J. M. Winey, Yogendra M. GuptaAbstract:Pressure Effects on the vibrational structure of α-RDX were examined using density functional theory (DFT) up to 4 GPa. The calculated vibrational frequencies at ambient conditions are in better ag...