Your search keyword '"Nicolas Riesen"' showing total 10 results

1. Design guidelines for collimating or focusing graded-index fiber tips

Author

Nicolas Riesen, David G. Lancaster, Nicholas Phillips, Riesen, Nicolas, Phillips, Nicholas, and Lancaster, David G

Subjects

optical fiber, Optical fiber, Materials science, Fabrication, Physics::Optics, 02 engineering and technology, 01 natural sciences, Graded-index fiber, Collimated light, collimating, law.invention, 010309 optics, Optics, Optical coherence tomography, law, 0103 physical sciences, medicine, focusing graded-index, Fiber, GIF tip, medicine.diagnostic_test, business.industry, 021001 nanoscience & nanotechnology, Atomic and Molecular Physics, and Optics, fiber tips, Wavelength, Photonics, 0210 nano-technology, business

Abstract

Graded-index optical fiber probes suitable for focusing or collimating the output of an optical fiber at a wavelength of 1.3 µm have become an enabling technology in optical coherence tomography imaging applications for in vivo bioimaging. Such fiber tips however remain uncommon in other photonics applications. This paper provides the first numerical study of graded-index fiber tips covering a broad range of wavelengths spanning from the UV to short-infrared. The wavelength dependency and the influence of probe geometry on performance characteristics such as far-field divergence angle, spot size and working distance are analyzed. The paper yields easily accessible design guidelines for the fabrication of collimating or focusing fiber tips. Fiber collimators have considerable potential for use in free-space systems and could benefit a range of devices such as variable attenuators, dynamic wavelength equalisers and large 3D optical cross-connect switches, whereas focusing fiber tips have applications in high-resolution imaging. Refereed/Peer-reviewed

Published

2021

2. Unified theory of whispering gallery multilayer microspheres with single dipole or active layer sources

Author

Shahraam Afshar, Tanya M. Monro, Nicolas Riesen, Matthew R. Henderson, Jonathan M. M. Hall, Tess Reynolds, Hall, Jonathan MM, Reynolds, Tess, Henderson, Matthew R, Riesen, Nicolas, Monro, Tanya M, and Afshar V, Shahraam

Subjects

Coupling, Materials science, business.industry, Whispering gallery, whispering gallery, Nonlinear optics, Physics::Optics, Dielectric, dipole sources, 01 natural sciences, Atomic and Molecular Physics, and Optics, Light scattering, 010309 optics, Dipole, Optics, 0103 physical sciences, Optoelectronics, multilayer microspheres, Whispering-gallery wave, 010306 general physics, business, Excitation

Abstract

The development of a fast and reliable whispering gallery mode (WGM) simulator capable of generating spectra that are comparable with experiment is an important step forward for designing microresonators. We present a new model for generating WGM spectra for multilayer microspheres, which allows for an arbitrary number of concentric dielectric layers, and any number of embedded dipole sources or uniform distributions of dipole sources to be modeled. The mode excitation methods model embedded nanoparticles, or fluorescent dye coatings, from which normalized power spectra with accurate representation of the mode coupling efficiencies can be derived. In each case, the emitted power is expressed conveniently as a function of wavelength, with minimal computational load. The model makes use of the transfer-matrix approach, incorporating improvements to its stability, resulting in a reliable, general set of formulae for calculating whispering gallery mode spectra. In the specific cases of the dielectric microsphere and the single-layer coated microsphere, our model simplifies to confirmed formulae in the literature. Refereed/Peer-reviewed

Published

2017

3. Towards rewritable multilevel optical data storage in single nanocrystals

Author

Nicolas Riesen, Heike Ebendorff-Heidepriem, Yinlan Ruan, Xuanzhao Pan, Tanya M. Monro, Hans Riesen, Jiangbo Zhao, Kate Badek, Riesen, Nicolas, Pan, Xuanzhao, Badek, Kate, Ruan, Yinlan, Monro, Tanya M, Zhao, Jiangbo, Ebendorff-Heidepriem, Heike, and Riesen, Hans

Subjects

3D optical data storage, Photoluminescence, Materials science, business.industry, Doping, 02 engineering and technology, 021001 nanoscience & nanotechnology, 7. Clean energy, 01 natural sciences, Fluence, Atomic and Molecular Physics, and Optics, 010309 optics, Digital Data Storage, Optics, Nanocrystal, 0103 physical sciences, Computer data storage, Optoelectronics, 0210 nano-technology, business, Optical disc

Abstract

Novel approaches for digital data storage are imperative, as storage capacities are drastically being outpaced by the exponential growth in data generation. Optical data storage represents the most promising alternative to traditional magnetic and solid-state data storage. In this paper, a novel and energy efficient approach to optical data storage using rare-earth ion doped inorganic insulators is demonstrated. In particular, the nanocrystalline alkaline earth halide BaFCl:Sm is shown to provide great potential for multilevel optical data storage. Proof-of-concept demonstrations reveal for the first time that these phosphors could be used for rewritable, multilevel optical data storage on the physical dimensions of a single nanocrystal. Multilevel information storage is based on the very efficient and reversible conversion of Sm³⁺ to Sm²⁺ ions upon exposure to UV-C light. The stored information is then read-out using confocal optics by employing the photoluminescence of the Sm²⁺ ions in the nanocrystals, with the signal strength depending on the UV-C fluence used during the write step. The latter serves as the mechanism for multilevel data storage in the individual nanocrystals, as demonstrated in this paper. This data storage platform has the potential to be extended to 2D and 3D memory for storage densities that could potentially approach petabyte/cm³ levels. Refereed/Peer-reviewed

Published

2018

4. Femtosecond direct-written integrated mode couplers

Author

Nicolas Riesen, Simon Gross, John D. Love, Michael J. Withford, Riesen, Nicolas, Gross, Simon, Love, John D, and Withford, Michael J

Subjects

Coupling, Microscopy, Optics and Photonics, Materials science, Optical fiber, Fabrication, Time Factors, business.industry, division multiplexed transmission, optical-fiber networks, Laser, Multiplexing, Atomic and Molecular Physics, and Optics, selective couplers, laser, law.invention, Optics, law, Wavelength-division multiplexing, Femtosecond, Image Processing, Computer-Assisted, wave-guides, business, Free-space optical communication

Abstract

We report the design and fabrication of three-dimensional integrated mode couplers operating in the C-band. These mode-selective couplers were inscribed into a boro-aluminosilicate photonic chip using the femtosecond laser direct-write technique. Horizontally and vertically written two-core couplers are shown to allow for the multiplexing of the LP11a and LP11b spatial modes of an optical fiber, respectively, with excellent mode extinction ratios (25-37 + dB) and low loss (∼1 dB) between 1500 and 1580 nm. Furthermore, optimized fabrication parameters enable coupling ratios close to 100%. When written in sequence, the couplers allow for the multiplexing of all LP01, LP11a and LP11b modes. This is also shown to be possible using a single 3-dimensional three-core coupler. These integrated mode couplers have considerable potential to be used in modedivision multiplexing for increasing optical fiber capacity. The three-dimensional capability of the femtosecond direct-write technique provides the versatility to write linear cascades of such two- and three-core couplers into a single compact glass chip, with arbitrary routing of waveguides to ensure a small footprint. This technology could be used for highperformance, compact and cost-effective multiplexing of large numbers of modes of an optical fiber. Refereed/Peer-reviewed

Published

2015

5. Dispersion analysis of whispering gallery mode microbubble resonators

Author

Wen Qi Zhang, Nicolas Riesen, Tanya M. Monro, Riesen, Nicolas, Zhang, Wen Qi, and Monro, Tanya M

Subjects

Total internal reflection, Materials science, business.industry, microsphere resonators, Cavity quantum electrodynamics, Physics::Optics, Nonlinear optics, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Atomic and Molecular Physics, and Optics, Physics::Fluid Dynamics, 010309 optics, Wavelength, Resonator, Zero-dispersion wavelength, Optics, 0103 physical sciences, Dispersion (optics), free spectral range, frequency comb generation, Whispering-gallery wave, 0210 nano-technology, business

Abstract

This paper examines the opportunities existing for engineering dispersion in non-silica whispering gallery mode microbubble resonators,for applications such as optical frequency comb generation. More specifically, the zero dispersion wavelength is analyzed as a function of microbubble diameter and wall thickness for several different material groups such as highly-nonlinear soft glasses, polymers and crystalline materials. The zero dispersion wavelength is shown to be highly-tunable by changing the thickness of the shell. Using certain materials it is shown that dispersion equalization can be realized at interesting wavelengths such as deep within the visible or mid-infrared, opening up new possibilities for optical frequency comb generation. This study represents the first extensive analysis of the prospects of using non-silica microbubbles for nonlinear optics. Refereed/Peer-reviewed

Published

2016

6. Q-factor limits for far-field detection of whispering gallery modes in active microspheres

Author

Matthew R. Henderson, Tanya M. Monro, Tess Reynolds, Nicolas Riesen, Alexandre François, Riesen, Nicolas, Reynolds, Tess, François, Alexandre, Henderson, Matthew R, and Monro, Tanya M

Subjects

Physics, Total internal reflection, Microscope, business.industry, Optics, Near and far field, 02 engineering and technology, resonators, 021001 nanoscience & nanotechnology, Coupled mode theory, 01 natural sciences, Atomic and Molecular Physics, and Optics, law.invention, 010309 optics, Resonator, law, optical microcavities, Q factor, 0103 physical sciences, Whispering-gallery wave, 0210 nano-technology, business, Refractive index

Abstract

This paper investigates the Q-factor limits imposed on the far-field detection of the whispering gallery modes of active microspherical resonators. It is shown that the Q-factor measured for a given active microsphere in the far-field using a microscope is significantly lower than that measured using evanescent field collection through a taper. The discrepancy is attributed to the inevitable small asphericity of microspheres that results in mode-splitting which becomes unresolvable in the far-field. Analytic expressions quantifying the Q-factor limits due to small levels of asphericity are subsequently derived. Refereed/Peer-reviewed

Published

2015

7. Holey fiber mode-selective couplers

Author

Nicolas Riesen, Alexander Argyros, Paolo Bassi, John D. Love, Sergio G. Leon-Saval, Alberto Parini, Richard Lwin, Gaetano Bellanca, Bellanca, Gaetano, Riesen, Nicolas, Argyros, Alexander, Leon-Saval, Sergio G, Lwin, Richard, Parini, Alberto, Love, John D., Bassi, Paolo, Riesen, Nicola, and Leon-Saval, Sergio G.

Subjects

Optical fiber, Materials science, routers, Holey fiber, Numerical approximation and analysis, dual core, Buffers, Bandgap fiber, Multiplexing, NO, law.invention, Optics, law, Numerical approximation and analysis, Buffers, couplers, routers, switches and multiplexers, Microstructured fibers, Multiplexing, Photonic crystal fibers, All-optical devices, All-optical devices, couplers, switches and multiplexers, business.industry, fiber couplers, Photonic crystal fiber, Mode (statistics), Microstructured fiber, mode coupling, Numerical approximation and analysi, Atomic and Molecular Physics, and Optics, Photonic crystal fibers, dimensional tolerance, Mode coupling, fiber mode, Microstructured fibers, Effective refractive index, business, Polarization splitter, Photonic-crystal fiber

Abstract

Directional mode coupling in an asymmetric holey fiber coupler is demonstrated both numerically and experimentally for the first time. The holey fiber mode couplers have interesting spectral characteristics and are also found to exhibit increased dimensional tolerances. Following a design based on numerical investigations, a dual-core polymer holey fiber coupler for LP01 and LP11 mode multiplexing was fabricated via a drilling and drawing technique. The measurements are compared with the simulation results. Refereed/Peer-reviewed

Published

2015

8. Material candidates for optical frequency comb generation in microspheres

Author

Alexandre François, Nicolas Riesen, Tanya M. Monro, V Shahraam Afshar, Riesen, Nicolas, Afshar Vahid, Shahraam, François, Alexandre, and Monro, Tanya M

Subjects

Total internal reflection, Materials science, nonlinear optical materials, business.industry, nonlinear optics, four-wave mixing, resonators, microcavities, Atomic and Molecular Physics, and Optics, Wavelength, Resonator, Optics, Figure of merit, Whispering-gallery wave, business, Absorption (electromagnetic radiation), Self-phase modulation, Refractive index

Abstract

This paper evaluates the opportunities for using materials other than silica for optical frequency comb generation in whispering gallery mode microsphere resonators. Different materials are shown to satisfy the requirement of dispersion compensation in interesting spectral regions such as the visible or mid-infrared and for smaller microspheres. This paper also analyses the prospects of comb generation in microspheres within aqueous solution for potential use in applications such as biosensing. It is predicted that to achieve comb generation with microspheres in aqueous solution the visible low-loss wavelength window of water needs to be exploited. This is because efficient comb generation necessitates ultra-high Q-factors, which are only possible for cavities with low absorption of the evanescent field outside the cavity. This paper explores the figure of merit for nonlinear interaction efficiency and the potential for dispersion compensation at unique wavelengths for a host of microsphere materials and dimensions and in different surroundings Refereed/Peer-reviewed

Published

2015

9. Method for predicting whispering gallery mode spectra of spherical microresonators

Author

Alexandre François, Tanya M. Monro, Tess Reynolds, V Shahraam Afshar, Nicolas Riesen, Matthew R. Henderson, Jonathan M. M. Hall, Hall, Jonathan MM, Afshar V, Shahraam, Henderson, Matthew R, Francois, Alexandre, Reynolds, Tess, Riesen, Nicolas, and Monro, Tanya M

Subjects

Physics, Coupling, Field (physics), spectra, business.industry, Mie scattering, optical resonators, Finite-difference time-domain method, FOS: Physical sciences, Physics::Optics, Computational Physics (physics.comp-ph), Atomic and Molecular Physics, and Optics, Resonator, Optics, Quantum dot, optical, Whispering-gallery wave, business, Physics - Computational Physics, Refractive index, whispering gallery mode, Optics (physics.optics), Physics - Optics

Abstract

A full three-dimensional Finite-Difference Time-Domain (FDTD)-based toolkit is developed to simulate the whispering gallery modes of a microsphere in the vicinity of a dipole source. This provides a guide for experiments that rely on efficient coupling to the modes of microspheres. The resultant spectra are compared to those of analytic models used in the field. In contrast to the analytic models, the FDTD method is able to collect flux from a variety of possible collection regions, such as a disk-shaped region. The customizability of the technique allows one to consider a variety of mode excitation scenarios, which are particularly useful for investigating novel properties of optical resonators, and are valuable in assessing the viability of a resonator for biosensing., Published 10 Apr 2015 in Opt. Express Vol. 23, Issue 8, pp. 9924-9937; The FDTD toolkit supercomputer scripts are hosted at: http://sourceforge.net/projects/npps/files/FDTD_WGM_Simulator/

Published

2015

10. Bandwidth-division in digitally enhanced optical frequency domain reflectometry

Author

Timothy T.-Y. Lam, Nicolas Riesen, Jong H. Chow, Riesen, Nicolas, Lam, Timothy T-Y, and Chow, Jong H

Subjects

Signal processing, Materials science, business.industry, level spatial-resolution, Bandwidth (signal processing), Signal Processing, Computer-Assisted, Optics, Atomic and Molecular Physics, and Optics, components, laser, Photometry, Interferometry, Phase noise, Telecommunications, business, Reflectometry, Phase modulation, Frequency modulation, Image resolution

Abstract

We demonstrate for the first time the use of digital range-gating in OFDR to allow for orders of magnitude reduction in the required sampling rates. This allows for sensing over long lengths of fiber with fast sweeps of the optical source frequency, without requiring impractical sampling rates. The range-gating is achieved using digitally enhanced interferometry (DI), which isolates individual sections of OFDR signal bandwidth. The reductions in sampling rates permitted by the bandwidth-division are demonstrated both numerically and experimentally. Refereed/Peer-reviewed

Published

2013