Your search keyword '"Trainor, Luke"' showing total 10 results

1. Single-point-diamond-turned GaAs disk resonator with over a million optical quality factor

Author

Platt, Lily M., Suresh, Mallika Irene, Azeem, Farhan, Trainor, Luke S., and Schwefel, Harald G. L.

Subjects

Physics - Optics, Physics - Applied Physics

Abstract

Gallium arsenide optical resonators have been identified as platforms for light-matter interactions ranging from optomechanics to quantum electrodynamics involving nonlinear optics. Here, we present a 5-mm-diameter whispering gallery mode resonator made of undoped gallium arsenide. The fabrication was done using single-point diamond turning followed by polishing with diamond solutions of varying grain size. The resulting resonator was optically characterized to have a quality factor of more than a million.

Published

2024

2. Microwave-optical double resonance in a erbium-doped whispering-gallery-mode resonator

Author

Ma, Li, Trainor, Luke S., King, Gavin G. G., Schwefel, Harald G. L., and Longdell, Jevon J.

Subjects

Quantum Physics, Condensed Matter - Other Condensed Matter, Physics - Optics

Abstract

We showcase an erbium-doped whispering-gallery-mode resonator with optical modes that display intrinsic quality factors better than $10^8$ (linewidths less than 2 MHz), and coupling strengths to collective erbium transitions of up to 2$\pi\times$1.2 GHz - enough to reach the ensemble strong coupling regime. Our optical cavity sits inside a microwave resonator, allowing us to probe the spin transition which is tuned by an external magnetic field. We show a modified optically detected magnetic resonance measurement that measures population transfer by a change in coupling strength rather than absorption coefficient. This modification was enabled by the strong coupling to our modes, and allows us to optically probe the spin transition detuned by more than the inhomogeneous linewidth. We contrast this measurement with electron paramagnetic resonance to experimentally show that our optical modes are confined in a region of large microwave magnetic field and we explore how such a geometry could be used for coherent microwave-optical transduction., Comment: 8 pages, 6 figures

Published

2022

3. Distance calibration via Newton's rings in yttrium lithium fluoride whispering gallery mode resonators

Author

Christensen, Josh T., Azeem, Farhan, Trainor, Luke S., Strekalov, Dmitry V., and Schwefel, Harald G. L.

Subjects

Physics - Optics

Abstract

In this work, we analyze the first whispering gallery mode resonator (WGMR) made from monocrystalline yttrium lithium fluoride (YLF). The disc-shaped resonator is fabricated using single-point diamond turning and exhibits a high intrinsic quality factor ($Q$) on the order of $10^9$. Moreover, we employ a novel method based on microscopic imaging of Newton's rings through the back of a trapezoidal prism. This method can be used to evanescently couple light in to a WGMR and monitor the separation between the cavity and the coupling prism. Accurately calibrating the distance between a coupling prism and a WGMR is desirable as it can be used to improve experimental control and conditions, i.e., accurate coupler gap calibration can aid in tuning into desired coupling regimes and can be used to avoid potential damage caused by collisions between the coupling prism and the WGMR. Here, we use two different trapezoidal prisms together with the high-$Q$ YLF WGMR to demonstrate and discuss this method., Comment: Main text (5 pages, 3 figures) Supplemental document (2 pages, 2 figures)

Published

2022

4. Soliton linear-wave scattering in a Kerr microresonator

Author

Qureshi, Pierce C., Ng, Vincent, Azeem, Farhan, Trainor, Luke S., Schwefel, Harald G. L., Coen, Stephane, Erkintalo, Miro, and Murdoch, Stuart G.

Subjects

Physics - Optics, Nonlinear Sciences - Pattern Formation and Solitons

Abstract

The nonlinear scattering of a linear optical wave from a conservative soliton has been widely studied in optical fibers as a mechanism for nonlinear frequency conversion. Here we extend this analysis to consider the scattering of an externally injected probe wave from a dissipative Kerr cavity soliton circulating in a Kerr microresonator. We demonstrate, both theoretically and experimentally, that this nonlinear interaction can be harnessed for useful expansion of the soliton frequency comb via the formation of a secondary idler comb. We explore the physics of the process, showing that the phase detuning of the injected probe from a cavity resonance plays a key role in setting the central frequency of the idler comb, thus providing a convenient parameter through which to control the spectral envelope of that comb. Our results elucidate the dynamics that govern the interactions between dissipative Kerr cavity solitons and externally injected probe waves, and could prove useful in the design of future Kerr frequency comb systems by enabling the possibility to provide high-power comb lines in a specified spectral region simply through the injection of a suitably chosen probe., Comment: 7 pages, 5 figures

Published

2021

5. Ultra-low Threshold Titanium doped sapphire Whispering-gallery Laser

Author

Azeem, Farhan, Trainor, Luke S., Gao, Ang, Isarov, Maya, Strekalov, Dmitry V., and Schwefel, Harald G. L.

Subjects

Physics - Optics

Abstract

Titanium doped sapphire (Ti:sapphire) is a laser gain material with broad gain bandwidth benefiting from the material stability of sapphire. These favorable characteristics of Ti:sapphire have given rise to femtosecond lasers and optical frequency combs. Shaping a single Ti:sapphire crystal into a millimeter sized high quality whispering gallery mode resonator ($Q\sim10^8$) reduces the lasing threshold to 14.2 mW and increases the laser slope efficiency to 34%. The observed lasing can be both multi-mode and single-mode. This is the first demonstration of a Ti:sapphire whispering-gallery laser. Furthermore, a novel method of evaluating the gain in Ti:sapphire in the near infrared region is demonstrated by introducing a probe laser with a central wavelength of 795 nm. This method results in decreasing linewidth of the modes excited with the probe laser, consequently increasing their $Q$. These findings open avenues for the usage of whispering gallery mode resonators as cavities for the implementation of compact Ti:sapphire lasers. Moreover, Ti:sapphire can also be utilized as an amplifier inside its gain bandwidth by implementing a pump-probe configuration., Comment: Main text (13 pages, 7 figures) Supplemental document (11 pages, 9 figures)

Published

2021

6. Dielectric perturbations: anomalous resonance frequency shifts in optical resonators

Author

Azeem, Farhan, Trainor, Luke S., Devane, Patrick A., Norman, Daniel S., Rueda, Alfredo, Lambert, Nicholas J., Kumari, Madhuri, Foreman, Matthew R., and Schwefel, Harald G. L.

Subjects

Physics - Optics

Abstract

Small perturbations in the dielectric environment around a high quality whispering gallery mode resonator usually lead to a frequency shift of the resonator modes directly proportional to the polarizability of the perturbation. Here, we report experimental observations of strong frequency shifts that can be opposite and even exceed the contribution of the perturbations' polarizability. The mode frequencies of a lithium niobate whispering gallery mode resonator are shifted using substrates of refractive indices ranging from 1.50 to 4.22. Both blue- and red-shifts are observed, as well as an increase in mode linewidth, when substrates are moved into the evanescent field of the whispering gallery mode. We compare the experimental results to a theoretical model by Foreman et al. and provide an additional intuitive explanation based on the Goos-H\"anchen shift for the optical domain., Comment: 7 pages, 4 figures

Published

2020

7. Experimental observation of internally-pumped parametric oscillation and quadratic comb generation in a $\chi^{(2)}$ whispering-gallery-mode microresonator

Author

Hendry, Ian, Trainor, Luke S., Xu, Yiqing, Coen, Stéphane, Murdoch, Stuart G., Schwefel, Harald G. L., and Erkintalo, Miro

Subjects

Physics - Optics

Abstract

We report on the experimental observation of internally-pumped parametric oscillation in a high-Q lithium niobate microresonator under conditions of natural phase-matching. Specifically, launching near-infrared pump light around 1060 nm into a $z$-cut congruent lithium niobate microresonator, we observe the generation of optical sidebands around the input pump under conditions where second-harmonic generation is close to natural phase-matching. We find that a wide range of different sideband frequency shifts can be generated by varying the experimental parameters. Under particular conditions, we observe the cascaded generation of several equally-spaced sidebands around the pump -- the first steps of optical frequency comb generation via cavity-enhanced second-harmonic generation., Comment: 5 pages, 5 figures; a wider range of indicative results added to Fig. 3 and text changed accordingly in version 2

Published

2019

8. Octave-spanning tunable parametric oscillation in crystalline Kerr microresonators

Author

Sayson, Noel Lito B., Bi, Toby, Ng, Vincent, Pham, Hoan, Trainor, Luke S., Schwefel, Harald G. L., Coen, Stéphane, Erkintalo, Miro, and Murdoch, Stuart G.

Subjects

Physics - Optics

Abstract

Parametric nonlinear optical processes allow for the generation of new wavelengths of coherent electromagnetic radiation. Their ability to create radiation that is widely tunable in wavelength is particularly appealing, with applications ranging from spectroscopy to quantum information processing. Unfortunately, existing tunable parametric sources are marred by deficiencies that obstruct their widespread adoption. Here we show that ultrahigh-Q crystalline microresonators made of magnesium fluoride can overcome these limitations, enabling compact and power-efficient devices capable of generating clean and widely-tunable sidebands. We consider several different resonators with carefully engineered dispersion profiles, achieving hundreds of nanometers of sideband tunability in each device when driven with a standard low-power laser at 1550 nm. In addition to direct observations of discrete tunability over an entire optical octave from 1083 nm to 2670 nm, we record signatures of mid-infrared sidebands at almost 4000 nm. The simplicity of the devices considered -- compounded by their remarkable tunability -- paves the way for low-cost, widely-tunable sources of electromagnetic radiation., Comment: 10 pages, 4 figures, submitted 1st of November 2018

Published

2019

9. Origins of clustered frequency combs in Kerr microresonators

Author

Sayson, Noel Lito B., Pham, Hoan, Webb, Karen E., Ng, Vincent, Trainor, Luke S., Schwefel, Harald G. L., Coen, Stéphane, Erkintalo, Miro, and Murdoch, Stuart G.

Subjects

Physics - Optics

Abstract

Recent experiments have demonstrated the generation of widely-spaced parametric sidebands that can evolve into "clustered" optical frequency combs in Kerr microresonators. Here we describe the physics that underpins the formation of such clustered comb states. In particular, we show that the phase-matching required for the initial sideband generation is such that (at least) one of the sidebands experiences anomalous dispersion, enabling that sideband to drive frequency comb formation via degenerate and non-degenerate four-wave mixing. We validate our proposal through a combination of experimental observations made in a magnesium-fluoride microresonator and corresponding numerical simulations. We also investigate the coherence properties of the resulting clustered frequency combs. Our findings provide valuable insights on the generation and dynamics of widely-spaced parametric sidebands and clustered frequency combs in Kerr microresonators., Comment: 5 pages, 4 figures

Published

2018

10. More efficient second harmonic generation of whispering gallery modes by selective out-coupling

Author

Trainor, Luke S., Sedlmeir, Florian, Peuntinger, Christian, and Schwefel, Harald G. L.

Subjects

Physics - Optics

Abstract

We demonstrate second harmonic generation (SHG) in an $x$-cut congruent lithium niobate (LN) whispering gallery mode resonator. We first show theoretically that independent control of the coupling of the pump and signal modes is optimal for high conversion rates. A scheme based on our earlier work in Ref. [1] is then implemented experimentally to verify this. Thereby we are able to improve on the efficiency of SHG by more than an order of magnitude by selectively out-coupling using a LN prism, utilizing the birefringence of it and the resonator in kind. We report 5.28%/mW efficiency for SHG from 1555.4 nm to 777.7 nm., Comment: 6 pages, 4 figures

Published

2017