Photonic Band Gap accelerator cavity design at 90 GHz
Publication
, Journal Article
Kroll, N; Schultz, S; Smith, DR; Vier, DC
Published in: Proceedings of the IEEE Particle Accelerator Conference
December 1, 1999
In previous work we have proposed utilizing Photonic Band Gap (PBG) structures as a new class of high-energy, high-intensity accelerator cavities. We have completed extensive MAFIA numerical calculations of multicell PBG structures, with each cell consisting of a square array of metal cylinders terminated by conducting sheets and surrounded by microwave absorber on the periphery. We find that our PBG structure has good higher order mode suppression, superior pumping properties, and potential fabricational advantages when compared to conventional cavity designs. These advantages scale favorably with increasing frequency, leading us to propose use of a PBG accelerator structure at W-band (91.392 GHz).
Duke Scholars
Published In
Proceedings of the IEEE Particle Accelerator Conference
Publication Date
December 1, 1999
Volume
2
Start / End Page
830 / 832
Citation
APA
Chicago
ICMJE
MLA
NLM
Kroll, N., Schultz, S., Smith, D. R., & Vier, D. C. (1999). Photonic Band Gap accelerator cavity design at 90 GHz. Proceedings of the IEEE Particle Accelerator Conference, 2, 830–832.
Kroll, N., S. Schultz, D. R. Smith, and D. C. Vier. “Photonic Band Gap accelerator cavity design at 90 GHz.” Proceedings of the IEEE Particle Accelerator Conference 2 (December 1, 1999): 830–32.
Kroll N, Schultz S, Smith DR, Vier DC. Photonic Band Gap accelerator cavity design at 90 GHz. Proceedings of the IEEE Particle Accelerator Conference. 1999 Dec 1;2:830–2.
Kroll, N., et al. “Photonic Band Gap accelerator cavity design at 90 GHz.” Proceedings of the IEEE Particle Accelerator Conference, vol. 2, Dec. 1999, pp. 830–32.
Kroll N, Schultz S, Smith DR, Vier DC. Photonic Band Gap accelerator cavity design at 90 GHz. Proceedings of the IEEE Particle Accelerator Conference. 1999 Dec 1;2:830–832.
Published In
Proceedings of the IEEE Particle Accelerator Conference
Publication Date
December 1, 1999
Volume
2
Start / End Page
830 / 832