Electron beam emission from a diamond-amplifier cathode

Xiangyun Chang; Qiong Wu; Ilan Ben-Zvi; Andrew Burrill; Jorg Kewisch; Triveni Rao; John Smedley; Erdong Wang; Erik M. Muller; Richard Busby; Dimitre Dimitrov

doi:10.1103/PhysRevLett.105.164801

Electron beam emission from a diamond-amplifier cathode

Xiangyun Chang
, Qiong Wu
, Ilan Ben-Zvi
, Andrew Burrill
, Jorg Kewisch
, Triveni Rao
, John Smedley
, Erdong Wang
, Erik M. Muller
, Richard Busby
, Dimitre Dimitrov

Physics and Astronomy

Brookhaven National Laboratory
Stony Brook University
Tech-X Corporation

Research output: Contribution to journal › Article › peer-review

41 Scopus citations

Abstract

The diamond amplifier (DA) is a new device for generating high-current, high-brightness electron beams. Our transmission-mode tests show that, with single-crystal, high-purity diamonds, the peak current density is greater than 400mA/mm2, while its average density can be more than 100mA/mm2. The gain of the primary electrons easily exceeds 200, and is independent of their density within the practical range of DA applications. We observed the electron emission. The maximum emission gain measured was 40, and the bunch charge was 50pC/0.5mm2. There was a 35% probability of the emission of an electron from the hydrogenated surface in our tests. We identified a mechanism of slow charging of the diamond due to thermal ionization of surface states that cancels the applied field within it. We also demonstrated that a hydrogenated diamond is extremely robust.

Original language	English
Article number	164801
Journal	Physical Review Letters
Volume	105
Issue number	16
DOIs	https://doi.org/10.1103/PhysRevLett.105.164801
State	Published - Oct 15 2010

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10.1103/PhysRevLett.105.164801

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title = "Electron beam emission from a diamond-amplifier cathode",

abstract = "The diamond amplifier (DA) is a new device for generating high-current, high-brightness electron beams. Our transmission-mode tests show that, with single-crystal, high-purity diamonds, the peak current density is greater than 400mA/mm2, while its average density can be more than 100mA/mm2. The gain of the primary electrons easily exceeds 200, and is independent of their density within the practical range of DA applications. We observed the electron emission. The maximum emission gain measured was 40, and the bunch charge was 50pC/0.5mm2. There was a 35\% probability of the emission of an electron from the hydrogenated surface in our tests. We identified a mechanism of slow charging of the diamond due to thermal ionization of surface states that cancels the applied field within it. We also demonstrated that a hydrogenated diamond is extremely robust.",

author = "Xiangyun Chang and Qiong Wu and Ilan Ben-Zvi and Andrew Burrill and Jorg Kewisch and Triveni Rao and John Smedley and Erdong Wang and Muller, \{Erik M.\} and Richard Busby and Dimitre Dimitrov",

year = "2010",

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doi = "10.1103/PhysRevLett.105.164801",

language = "English",

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T1 - Electron beam emission from a diamond-amplifier cathode

AU - Chang, Xiangyun

AU - Wu, Qiong

AU - Ben-Zvi, Ilan

AU - Burrill, Andrew

AU - Kewisch, Jorg

AU - Rao, Triveni

AU - Smedley, John

AU - Wang, Erdong

AU - Muller, Erik M.

AU - Busby, Richard

AU - Dimitrov, Dimitre

PY - 2010/10/15

Y1 - 2010/10/15

N2 - The diamond amplifier (DA) is a new device for generating high-current, high-brightness electron beams. Our transmission-mode tests show that, with single-crystal, high-purity diamonds, the peak current density is greater than 400mA/mm2, while its average density can be more than 100mA/mm2. The gain of the primary electrons easily exceeds 200, and is independent of their density within the practical range of DA applications. We observed the electron emission. The maximum emission gain measured was 40, and the bunch charge was 50pC/0.5mm2. There was a 35% probability of the emission of an electron from the hydrogenated surface in our tests. We identified a mechanism of slow charging of the diamond due to thermal ionization of surface states that cancels the applied field within it. We also demonstrated that a hydrogenated diamond is extremely robust.

AB - The diamond amplifier (DA) is a new device for generating high-current, high-brightness electron beams. Our transmission-mode tests show that, with single-crystal, high-purity diamonds, the peak current density is greater than 400mA/mm2, while its average density can be more than 100mA/mm2. The gain of the primary electrons easily exceeds 200, and is independent of their density within the practical range of DA applications. We observed the electron emission. The maximum emission gain measured was 40, and the bunch charge was 50pC/0.5mm2. There was a 35% probability of the emission of an electron from the hydrogenated surface in our tests. We identified a mechanism of slow charging of the diamond due to thermal ionization of surface states that cancels the applied field within it. We also demonstrated that a hydrogenated diamond is extremely robust.

UR - https://www.scopus.com/pages/publications/77958144750

U2 - 10.1103/PhysRevLett.105.164801

DO - 10.1103/PhysRevLett.105.164801

M3 - Article

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SN - 0031-9007

VL - 105

JO - Physical Review Letters

JF - Physical Review Letters

IS - 16

M1 - 164801

ER -

Electron beam emission from a diamond-amplifier cathode

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