Saturable absorption in diamond nanophotonics

Christopher Coutts; Nicholas J. Sorensen; Elham Zohari; Sean McNaney; Sigurd Fl\r{a}gan; and Paul E. Barclay

arXiv:2603.11367·physics.optics·March 13, 2026

Saturable absorption in diamond nanophotonics

Christopher Coutts, Nicholas J. Sorensen, Elham Zohari, Sean McNaney, Sigurd Fl\r{a}gan, and Paul E. Barclay

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TL;DR

This paper demonstrates high-Q diamond microdisk cavities exhibiting saturable absorption due to defect-related nonlinearities, providing insights into defect-mediated optical loss and potential for nonlinear diamond photonic devices.

Contribution

It reports the fabrication of defect-rich diamond microdisk cavities with high quality factors and characterizes their wavelength-dependent saturable absorption properties.

Findings

01

High-Q microdisk cavities with Q~7×10^4 at 1042 nm.

02

Wavelength-dependent absorption coefficients and saturation intensities measured.

03

Hydrogen-related defects likely cause the observed saturable absorption.

Abstract

Diamond is a leading quantum photonics platform due to its ability to host qubits based on crystal defects such as nitrogen vacancy centres. Fabricating nanophotonic devices from defect-rich diamond, which is central to many quantum sensing technologies, promises to enable enhanced performance and integrability of diamond quantum sensors. Here we demonstrate microdisk cavities fabricated from defect-rich diamond that support optical modes with high quality factor ( $Q \sim 7 \times 1 0^{4}$ at 1042 nm), and show that they exhibit saturable absorption. Power dependent spectroscopy measurements spanning 979 nm to 1604 nm are used to extract wavelength-dependent absorption coefficients and saturation intensities, which indicate that a hydrogen-related defect is a likely origin of the observed absorption. At 1047 nm, we measure a saturation intensity of 3.3 (1) MW/cm $^{2}$ and an absorption…

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Taxonomy

TopicsDiamond and Carbon-based Materials Research · Advanced Fiber Laser Technologies · Mechanical and Optical Resonators