Development of coherent electron emission source of Pd-atom nanotips built on W (111)

E. Rokuta; C. Oshima

Development of coherent electron emission source of Pd-atom nanotips built on W (111)

E. Rokuta^*, C. Oshima

^*Corresponding author for this work

Waseda University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

We have fabricated nano-scaled Pd atom clusters to apply to a field electron source, and the electron emission characteristics were investigated. Owing to the formation of the Pd nanotips, field electron beams were drastically converged within a cone angle of approximately 5 degree. This collimation of the electron beams was quite relevant to the case of previously-studied W nanoemitters. Analysis based on Fowler-Nordheim formalism, where work function of W (111) was assumed to be available for each specimen, predicts that the effective tip radius ranged from 150 and 200 nm for the conventional W emitter and from 20 to 30 nm for the Pd nanotip. Noticeably, the Pd nanotips were found to regenerate and to exhibit equivalent emission characteristics repeatedly. This unlimited revival function is significant for the practical use, and not possessed by the previously studied W nanotips.

Original language	English
Title of host publication	IVESC2004 - 5th International Vacuum Electron Sources Conference Proceedings
Pages	75-77
Number of pages	3
Publication status	Published - 2004
Event	IVESC2004 - 5th International Vacuum Electron Sources Conference Proceedings - Beijing Duration: 2004 Sept 6 → 2004 Sept 10

Other

Other	IVESC2004 - 5th International Vacuum Electron Sources Conference Proceedings
City	Beijing
Period	04/9/6 → 04/9/10

ASJC Scopus subject areas

Engineering(all)

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@inproceedings{8939885d103349cfb55202133494bf2d,

title = "Development of coherent electron emission source of Pd-atom nanotips built on W (111)",

abstract = "We have fabricated nano-scaled Pd atom clusters to apply to a field electron source, and the electron emission characteristics were investigated. Owing to the formation of the Pd nanotips, field electron beams were drastically converged within a cone angle of approximately 5 degree. This collimation of the electron beams was quite relevant to the case of previously-studied W nanoemitters. Analysis based on Fowler-Nordheim formalism, where work function of W (111) was assumed to be available for each specimen, predicts that the effective tip radius ranged from 150 and 200 nm for the conventional W emitter and from 20 to 30 nm for the Pd nanotip. Noticeably, the Pd nanotips were found to regenerate and to exhibit equivalent emission characteristics repeatedly. This unlimited revival function is significant for the practical use, and not possessed by the previously studied W nanotips.",

author = "E. Rokuta and C. Oshima",

year = "2004",

language = "English",

isbn = "0780384377",

pages = "75--77",

booktitle = "IVESC2004 - 5th International Vacuum Electron Sources Conference Proceedings",

note = "IVESC2004 - 5th International Vacuum Electron Sources Conference Proceedings ; Conference date: 06-09-2004 Through 10-09-2004",

}

TY - GEN

T1 - Development of coherent electron emission source of Pd-atom nanotips built on W (111)

AU - Rokuta, E.

AU - Oshima, C.

PY - 2004

Y1 - 2004

N2 - We have fabricated nano-scaled Pd atom clusters to apply to a field electron source, and the electron emission characteristics were investigated. Owing to the formation of the Pd nanotips, field electron beams were drastically converged within a cone angle of approximately 5 degree. This collimation of the electron beams was quite relevant to the case of previously-studied W nanoemitters. Analysis based on Fowler-Nordheim formalism, where work function of W (111) was assumed to be available for each specimen, predicts that the effective tip radius ranged from 150 and 200 nm for the conventional W emitter and from 20 to 30 nm for the Pd nanotip. Noticeably, the Pd nanotips were found to regenerate and to exhibit equivalent emission characteristics repeatedly. This unlimited revival function is significant for the practical use, and not possessed by the previously studied W nanotips.

AB - We have fabricated nano-scaled Pd atom clusters to apply to a field electron source, and the electron emission characteristics were investigated. Owing to the formation of the Pd nanotips, field electron beams were drastically converged within a cone angle of approximately 5 degree. This collimation of the electron beams was quite relevant to the case of previously-studied W nanoemitters. Analysis based on Fowler-Nordheim formalism, where work function of W (111) was assumed to be available for each specimen, predicts that the effective tip radius ranged from 150 and 200 nm for the conventional W emitter and from 20 to 30 nm for the Pd nanotip. Noticeably, the Pd nanotips were found to regenerate and to exhibit equivalent emission characteristics repeatedly. This unlimited revival function is significant for the practical use, and not possessed by the previously studied W nanotips.

UR - http://www.scopus.com/inward/record.url?scp=20444380046&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=20444380046&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:20444380046

SN - 0780384377

SP - 75

EP - 77

BT - IVESC2004 - 5th International Vacuum Electron Sources Conference Proceedings

T2 - IVESC2004 - 5th International Vacuum Electron Sources Conference Proceedings

Y2 - 6 September 2004 through 10 September 2004

ER -

Development of coherent electron emission source of Pd-atom nanotips built on W (111)

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