P.C.K. Lee scite author profile

P.C.K. Lee

3Publications

18Citation Statements Received

26Citation Statements Given

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Affiliations

Nanyang Technological University

Publications

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Optimizing UNU/ICTP PFF Plasma Focus for Neon Soft X-ray Operation

Saw¹,

Lee

Rawat

et al. 2009

IEEE Trans. Plasma Sci.

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Abstract-The United Nations University/International Centre for Theoretical Physics Plasma Focus Facility (UNU/ICTP PFF), a 3.3-kJ plasma focus, was designed for operation in deuterium with a speed factor S such that the axial run-down time matches the current rise time at an end axial speed of nearly 10 cm/μs. For operation in neon, we first consider that a focus pinch temperature between 200 and 500 eV may be suitable for a good yield of neon soft X-rays, which corresponds to an end axial speed of 6-7 cm/μs. On this basis, for operation in neon, the standard UNU/ICTP PFF needs to have its anode length z 0 reduced by some 30%-40% to maintain the time matching. Numerical experiments using the Lee model code are carried out to determine the optimum configuration of the electrodes for the UNU/ICTP PFF capacitor system. The results show that an even more drastic shortening of anode length z 0 is required, from the original 16 to 7 cm, at the same time, increasing the anode radius "a" from 0.95 to 1.2 cm, to obtain an optimum yield of Y sxr = 9.5 J. This represents a two-to threefold increase in the Y sxr from that computed for the standard UNU/ICTP PFF.Index Terms-Dense plasma focus, neon plasma, numerical experiments, soft X-ray (SXR) source.

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Characteristics of Fast ion beam in Neon and Argon filled plasma focus correlated with Lee Model Code

Damideh

Chin

Saw

et al. 2019

Vacuum

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Comparative numerical study of the dynamics, ion beam and flow energetics of fast and slow focus modes in a 2 kJ plasma focus operated in various gases

Saw

Damideh

Chin

et al. 2019

Vacuum

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P.C.K. Lee

Optimizing UNU/ICTP PFF Plasma Focus for Neon Soft X-ray Operation

Characteristics of Fast ion beam in Neon and Argon filled plasma focus correlated with Lee Model Code

Comparative numerical study of the dynamics, ion beam and flow energetics of fast and slow focus modes in a 2 kJ plasma focus operated in various gases

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P.C.K. Lee

Optimizing UNU/ICTP PFF Plasma Focus for Neon Soft X-ray Operation

Characteristics of Fast ion beam in Neon and Argon filled plasma focus correlated with Lee Model Code

Comparative numerical study of the dynamics, ion beam and flow energetics of fast and slow focus modes in a 2 kJ plasma focus operated in various gases

Contact Info

Product

Resources

About

Comparative numerical study of the dynamics, ion beam and flow energetics of fast and slow focus modes in a 2 kJ plasma focus operated in various gases