Modeling of broadband compact vacuum power devices and vacuum nano-electronics
In this project, we focus on understanding the physics of high intense electron beam generation and interaction in nanometer, which is vital for miniature vacuum high power devices. An important result is obtained by developing a new quantum theory of the Child-Langmuir (CL) law [A1], which produces...
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2008
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sg-ntu-dr.10356-28882023-03-04T03:22:28Z Modeling of broadband compact vacuum power devices and vacuum nano-electronics Ang, Ricky Lay Kee School of Electrical and Electronic Engineering DRNTU::Engineering::Electrical and electronic engineering::Nanoelectronics In this project, we focus on understanding the physics of high intense electron beam generation and interaction in nanometer, which is vital for miniature vacuum high power devices. An important result is obtained by developing a new quantum theory of the Child-Langmuir (CL) law [A1], which produces the first PRL (Physical Review Letters) paper published by NTU as the principle institution. The new theory is superior to previous attempts, in that it self-consistently provides the solutions in terms of natural scale dimensions. It presents an exact ID model including electron exchange-correlation interaction, electrode surface curvature, and finite emitter area. The theory shows that the classical value of the CL law is increased by a large factor due to the electron tunneling through the space-charge potential, and the exchange-correlation interaction becomes important when the applied gap voltage (V) and the gap spacing (D) are, respectively, on the order of Hartree energy level, and nanometer scale. It is found that the classical scaling of V3?2 and D-? is no longer valid in the quantum regime, and a new quantum scaling of V?2 and D?4 is established both numerically [A1] and analytically [A2]. 2008-09-17T09:16:19Z 2008-09-17T09:16:19Z 2003 2003 Research Report http://hdl.handle.net/10356/2888 Nanyang Technological University application/pdf |
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DRNTU::Engineering::Electrical and electronic engineering::Nanoelectronics Ang, Ricky Lay Kee Modeling of broadband compact vacuum power devices and vacuum nano-electronics |
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In this project, we focus on understanding the physics of high intense electron beam generation and interaction in nanometer, which is vital for miniature vacuum high power devices. An important result is obtained by developing a new quantum theory of the Child-Langmuir (CL) law [A1], which produces the first PRL (Physical Review Letters) paper published by NTU as the principle institution. The new theory is superior to previous attempts, in that it self-consistently provides the solutions in terms of natural scale dimensions. It presents an exact ID model including electron exchange-correlation interaction, electrode surface curvature, and finite emitter area. The theory shows that the classical value of the CL law is increased by a large factor due to the electron tunneling through the space-charge potential, and the exchange-correlation interaction becomes important when the applied gap voltage (V) and the gap spacing (D) are, respectively, on the order of Hartree energy level, and nanometer scale. It is found that the classical scaling of V3?2 and D-? is no longer valid in the quantum regime, and a new quantum scaling of V?2 and D?4 is established both numerically [A1] and analytically [A2]. |
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School of Electrical and Electronic Engineering |
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School of Electrical and Electronic Engineering Ang, Ricky Lay Kee |
| format |
Research Report |
| author |
Ang, Ricky Lay Kee |
| author_sort |
Ang, Ricky Lay Kee |
| title |
Modeling of broadband compact vacuum power devices and vacuum nano-electronics |
| title_short |
Modeling of broadband compact vacuum power devices and vacuum nano-electronics |
| title_full |
Modeling of broadband compact vacuum power devices and vacuum nano-electronics |
| title_fullStr |
Modeling of broadband compact vacuum power devices and vacuum nano-electronics |
| title_full_unstemmed |
Modeling of broadband compact vacuum power devices and vacuum nano-electronics |
| title_sort |
modeling of broadband compact vacuum power devices and vacuum nano-electronics |
| publishDate |
2008 |
| url |
http://hdl.handle.net/10356/2888 |
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