Demonstration of integrated microscale optics in surface-electrode ion
  traps

Alexa W Harter; Amini J M; Brady G R; C-S Pai; Chiaverini J; Curtis Volin; Daniel Faircloth; David Landgren; Doret S C; Harley Hayden; Herskind P F Wang S X Shi M Ge Y Cetina M Chuang I L; J True Merrill; Jaeger R C; Jason M Amini; Kenneth R Brown; Kenneth Wright; Kim J; Leibrandt D R; Raussendorf R; Richart E Slusher; S Charles Doret; Splatt F; Svetovoy V B; Tyler Killian

research

Demonstration of integrated microscale optics in surface-electrode ion traps

Authors: Alexa W Harter
Amini J M
Brady G R
C-S Pai
Chiaverini J
Curtis Volin
Daniel Faircloth
David Landgren
Doret S C
Harley Hayden
Herskind P F Wang S X Shi M Ge Y Cetina M Chuang I L
J True Merrill
Jaeger R C
Jason M Amini
Kenneth R Brown
Kenneth Wright
Kim J
Leibrandt D R
Raussendorf R
Richart E Slusher
S Charles Doret
Splatt F
Svetovoy V B
Tyler Killian
Publication date: 20 October 2011
Publisher: 'IOP Publishing'
Doi

Abstract

In ion trap quantum information processing, efficient fluorescence collection is critical for fast, high-fidelity qubit detection and ion-photon entanglement. The expected size of future many-ion processors require scalable light collection systems. We report on the development and testing of a microfabricated surface-electrode ion trap with an integrated high numerical aperture (NA) micromirror for fluorescence collection. When coupled to a low NA lens, the optical system is inherently scalable to large arrays of mirrors in a single device. We demonstrate stable trapping and transport of 40Ca+ ions over a 0.63 NA micromirror and observe a factor of 1.9 enhancement in photon collection compared to the planar region of the trap.Comment: 15 pages, 8 figure

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