TY - JOUR

T1 - Microscopic diamond Solid-Immersion-Lenses fabricated around single defect ceneters by focussed ion beam milling

AU - Jamali, Mohammad

AU - Gerhardt, Ilja

AU - Rezai, Mohammad

AU - Frenner, Karsten

AU - Fedder, Helmut

AU - Wrachtrup, Jörg

PY - 2014

Y1 - 2014

N2 - Recent efforts to define microscopic solid-immersion-lenses (SIL) by focused ion beam milling into diamond substrates that are registered to a preselected single photon emitter are summarized. We show how we determine the position of a single emitter with at least 100 nm lateral and 500 nm axial accuracy, and how the milling procedure is optimized. The characteristics of a single emitter, a Nitrogen Vacancy (NV) center in diamond, are measured before and after producing the SIL and compared with each other. A count rate of 1.0 million counts per second is achieved with a [111] oriented NV center.

AB - Recent efforts to define microscopic solid-immersion-lenses (SIL) by focused ion beam milling into diamond substrates that are registered to a preselected single photon emitter are summarized. We show how we determine the position of a single emitter with at least 100 nm lateral and 500 nm axial accuracy, and how the milling procedure is optimized. The characteristics of a single emitter, a Nitrogen Vacancy (NV) center in diamond, are measured before and after producing the SIL and compared with each other. A count rate of 1.0 million counts per second is achieved with a [111] oriented NV center.

KW - Solid Immersion Lenses

KW - Single Photons

KW - Focused Ion Beam Milling

M3 - Article

VL - 85

SP - 123703

JO - Review of scientific instruments

JF - Review of scientific instruments

SN - 0034-6748

ER -