Plasmonic extra-ordinary transmission: testing the maintenance of optical frequency and phase via a frequency comb

Young-Jin Kim; Byung Jae Chun; Seungchul Kim

doi:10.1117/12.2290244

23 February 2018 Plasmonic extra-ordinary transmission: testing the maintenance of optical frequency and phase via a frequency comb

Young-Jin Kim, Byung Jae Chun, Seungchul Kim

Author Affiliations +

Proceedings Volume 10509, Plasmonics in Biology and Medicine XV; 105090L (2018) https://doi.org/10.1117/12.2290244
Event: SPIE BiOS, 2018, San Francisco, California, United States

Abstract

Frequency comb has shown remarkable potential in time/frequency metrology, atomic/molecular spectroscopy and precision LIDARs. It will create novel possibilities in nano-photonics and plasmonics; however, its interrelation with surface plasmons is unexplored despite the important role that plasmonics play in nonlinear spectroscopy and quantum optics through the manipulation of light in a subwavelength scale. We demonstrate that frequency comb can be transferred by plasmonic nanostructures without noticeable degradation of less than 6.51×10^-19 in absolute position and 1 Hz in linewidth, which implies frequency comb’s potential applications in nanoplasmonic spectroscopy, quantum metrology and subwavelength photonic circuits.

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Young-Jin Kim, Byung Jae Chun, and Seungchul Kim "Plasmonic extra-ordinary transmission: testing the maintenance of optical frequency and phase via a frequency comb", Proc. SPIE 10509, Plasmonics in Biology and Medicine XV, 105090L (23 February 2018); https://doi.org/10.1117/12.2290244

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KEYWORDS

Plasmonics

Frequency combs

Surface plasmons

Nanostructures

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