Search

Your search keyword '"Fuerbach, A."' showing total 547 results
Start Over Author "Fuerbach, A."
547 results on '"Fuerbach, A."'

1. Ultrafast Laser-Fabricated Fluoride Glass Waveguides with Exceptionally High Positive Refractive Index Change for Mid-Infrared Integrated Optics

Author

Fernandez, T Toney, Hwang, Y, Mahmodi, H, Otten, D, Plenecassagne, L, Cozic, S, Gross, S, Kabakova, I, Withford, M, Poulain, M, Fuerbach, A, and Lancaster, D

Subjects
Physics - Optics, 78A60, 82D30
Abstract

This study reports the successful fabrication of high-positive refractive index change waveguides, exceeding 0.02 in fluoride glasses, marking a significant advancement in integrated optical components for visible to mid-infrared applications. This research overcomes longstanding challenges in direct-write photonics and therefore enables the realization of true 3D geometries in optical elements, access to novel visible lasing wavelengths typically suppressed in high phonon hosts, and the miniaturization of mid-infrared optical devices. The investigation into the waveguides' origin attributes the exceptionally high index change to material densification driven by the migration of specific elements, mainly barium, within the glass composition. These waveguides, characterized by low insertion losses, and highly customizable V-numbers evidenced by multimode operation at 3.5 um, offers substantial potential for chip laser technology and the creation of advanced optical devices for sensing and spectroscopy., Comment: 12 pages, 9 figures

Published
2024

2. Mid-infrared optical waveguides: missing link of integrated photonics

Author

Fernandez, T Toney, Hwang, Yongsop, Otten, Dale, Fuerbach, Alex, and Lancaster, David

Subjects
Physics - Optics, Condensed Matter - Materials Science, 78A60, 82D30
Abstract

Lack of low phonon energy glass waveguides delays the progress of integrated photonics in the mid-infrared wavelength. This perspective provides insights on the history of waveguide production in the past and what to expect in the near future., Comment: 4 Pages, 3 figures

Published
2024

4. Ultrafast laser inscribed waveguides in tailored fluoride glasses: An enabling technology for mid-infrared integrated photonics devices

Author

Fernandez, T Toney, Johnston, B, Gross, S, Cozic, S, Poulain, M, Mahmodi, H, Kabakova, I, Withford, M, and Fuerbach, A

Subjects
Physics - Optics, Condensed Matter - Materials Science, Physics - Chemical Physics, 78A60
Abstract

Zirconium fluoride (ZBLAN) glass, the standard material used in fiber-based mid-infrared photonics, has been re-designed to enable the fabrication of high index-contrast low-loss waveguides via femtosecond laser direct writing. We demonstrate that in contrast to pure ZBLAN, a positive index change of close to 10$^{-2}$ can be induced in hybrid zirconium/hafnium (Z/HBLAN) glasses during ultrafast laser inscription and show that this can be explained by an electron cloud distortion effect that is driven by the existence of two glass formers with contrasting polarizability. High numerical aperture (NA) type-I waveguides that support a well confined 3.1 $\mu$m wavelength mode with a mode-field diameter (MFD) as small as 12 $\mu$m have successfully been fabricated. These findings open the door for the fabrication of mid-infrared integrated photonic devices that can readily be pigtailed to existing ZBLAN fibers.

Published
2022

5. Single femtosecond laser pulse interaction with mica

Author

Awasthi, Saurabh, Little, Douglas J., Fuerbach, A., and Kane, D. M.

Subjects
Condensed Matter - Materials Science, Physics - Applied Physics, Physics - Optics
Abstract

Ultrafast, femtosecond laser pulse interaction with dielectric materials has shown them to have significantly higher laser fluence threshold requirements, as compared to metals and semiconductors, for laser material modification, such as laser ablation. Examples of dielectrics are crystalline materials such as quartz and sapphire, and amorphous glasses. The interaction between femtosecond laser pulses, at a wavelength with negligible linear absorption, and a dielectric has been found to be weak, and multiple pulse irradiation is therefore typically used in order to see significant and quantifiable effects. In this study the dielectric is the crystalline, layered, natural mineral muscovite, a mica with formula KAl_2 (Si_3 Al) O_10 (OH)_2. Muscovite, newly cleaved, is used in a wide range of technological and scientific applications including as an insulating material in electronics and as an ultra-flat and ultra-clean substrate. A single, ~800 nm wavelength, ~6 micron spotsize, ~150 fs laser pulse is found to lead to a systematic range of laser modification topologies, as a function of the fluence of the single laser pulse, including bulk removal of material. The fs laser pulse/material interaction is greater than expected for a standard dielectric at a given fluence. Optical surface profiling and FESEM are used to characterise the topologies. Contrasting the results of the two techniques supports the use of optical surface profiling to characterise the material modification despite its limitations in lateral resolution as compared to FESEM. The interlayer mineral water content of natural muscovite is proposed as the primary reason that mica behaves differently to a standard dielectric when irradiated with a single 800 nm fs laser pulse.

Published
2019
Full Text
View/download PDF

6. 1.3 W, super-octave-spanning Pulses at 2.3 μm from a Cr:ZnS Amplifier

Author

Kimbaras Džiugas, Fuerbach Alexander, Liang Wei, Steinleitner Philipp, Gröbmeyer Sebastian, Karpowicz Nicholas, Krausz Ferenc, and Weigel Alexander

Subjects
Physics, QC1-999
Abstract

We investigate spectral broadening in TiO2 seeded by > 2 W, τ0.5 = 26 fs, 23 MHz pulses from a Cr:ZnS amplifier. We generate pulses covering spectrum from 1.1 to 3.2 µm at the -20-dB level at 1.3 W. © 2024 The Author(s)

Published
2024
Full Text
View/download PDF

7. Watt-level dysprosium fiber laser at 3.15 {\mu}m with 73% slope efficiency

Author

Woodward, R. I., Majewski, M. R., Bharathan, G., Hudson, D. D., Fuerbach, A., and Jackson, S. D.

Subjects
Physics - Optics
Abstract

Rare-earth-doped fiber lasers are emerging as promising high-power mid-infrared sources for the 2.6-3.0 {\mu}m and 3.3-3.8 {\mu}m regions based on erbium and holmium ions. The intermediate wavelength range, however, remains vastly underserved, despite prospects for important manufacturing and defense applications. Here, we demonstrate the potential of dysprosium-doped fiber to solve this problem, with a simple in-band pumped grating-stabilized linear cavity generating up to 1.06 W at 3.15 {\mu}m. A slope efficiency of 73% with respect to launched power (77% relative to absorbed power) is achieved: the highest value for any mid-infrared fiber laser to date, to the best of our knowledge. Opportunities for further power and efficiency scaling are also discussed.

Published
2018
Full Text
View/download PDF

8. Ultrafast laser inscribed waveguides in tailored fluoride glasses: an enabling technology for mid-infrared integrated photonics devices

Author

Toney T. Fernandez, B. Johnston, S. Gross, S. Cozic, M. Poulain, H. Mahmodi, I. Kabakova, M. Withford, and A. Fuerbach

Subjects
Medicine, Science
Abstract

Abstract Zirconium fluoride (ZBLAN) glass, the standard material used in fiber-based mid-infrared photonics, has been re-designed to enable the fabrication of high index-contrast low-loss waveguides via femtosecond laser direct writing. We demonstrate that in contrast to pure ZBLAN, a positive index change of close to 10−2 can be induced in hybrid zirconium/hafnium (Z/HBLAN) glasses during ultrafast laser inscription and show that this can be explained by an electron cloud distortion effect that is driven by the existence of two glass formers with contrasting polarizability. High numerical aperture (NA) type-I waveguides that support a well confined 3.1 μm wavelength mode with a mode-field diameter (MFD) as small as 12 μm have successfully been fabricated. These findings open the door for the fabrication of mid-infrared integrated photonic devices that can readily be pigtailed to existing ZBLAN fibers.

Published
2022
Full Text
View/download PDF

10. Generation of 70-fs pulses at 2.86 {\mu}m from a mid-infrared fiber laser

Author

Woodward, R. I., Hudson, D. D., Fuerbach, A., and Jackson, S. D.

Subjects
Physics - Optics
Abstract

We propose and demonstrate a simple route to few-optical-cycle pulse generation from a mid-infrared fiber laser through nonlinear compression of pulses from a holmium-doped fiber oscillator using a short length of chalcogenide fiber and a grating pair. Pulses from the oscillator with 265-fs duration at 2.86 {\mu}m are spectrally broadened through self-phase modulation in step-index As2S3 fiber to 141-nm bandwidth and then re-compressed to 70 fs (7.3 optical cycles). These are the shortest pulses from a mid-infrared fiber system to date, and we note that our system is compact, robust, and uses only commercially available components. The scalability of this approach is also discussed, supported by numerical modeling., Comment: Published in Optics Letters

Published
2017
Full Text
View/download PDF

11. Thermally stable high numerical aperture integrated waveguides and couplers for the 3 μm wavelength range

Author

T. Toney Fernandez, B. Johnston, H. Mahmodi, K. Privat, I. Kabakova, S. Gross, M. Withford, and A. Fuerbach

Subjects
Applied optics. Photonics, TA1501-1820
Abstract

The femtosecond laser direct write technique was used to fabricate mid-infrared compatible waveguide couplers into Suprasil 3001, a fused silica glass with an OH content of as low as ≤1 ppm. Smooth positive step-index change multi-scan waveguides were produced with a high index contrast of 1 × 10−2, measured directly using quadriwave lateral shearing interferometry. Waveguides were annealed at 400 °C for 15 h and found to be highly stable, with only

Published
2022
Full Text
View/download PDF

13. Fiber Bragg gratings in soft glass fibers

Author

Bernier, Martin, primary, Talbot, Lauris, additional, Boilard, Tommy, additional, Pleau, Louis-Philippe, additional, Fuerbach, Alex, additional, Bharathan, Gayathri, additional, and Ams, Martin, additional

Published
2022
Full Text
View/download PDF

14. Contributors

Author

Adam, Jean Luc, primary, Alvarez, Oseas, additional, Ams, Martin, additional, Aydin, Yigit Ozan, additional, Bang, Ole, additional, Barney, E., additional, Benson, T.M., additional, Bernier, Martin, additional, Bharathan, Gayathri, additional, Boilard, Tommy, additional, Busse, Lynda E., additional, Butterworth, J., additional, Chenard, François, additional, Cozic, Solenn, additional, Crane, R.W., additional, Ebendorff-Heidepriem, Heike, additional, Farries, M., additional, Fortin, Vincent, additional, Fuerbach, Alex, additional, Furniss, D., additional, Gattass, Rafael R., additional, Gorjan, Martin, additional, Henderson-Sapir, Ori, additional, Hudson, Darren, additional, Jackson, Stuart, additional, Jayasuriya, D., additional, Jobin, Frédéric, additional, Kang, Myungkoo, additional, Kang, Zhe, additional, Li, Jianfeng, additional, Luo, Hongyu, additional, Mabwa, D.P., additional, Maes, Frédéric, additional, Majewski, Matthew R., additional, Nunes, J.J., additional, Ottaway, David J., additional, Parnell, H., additional, Petersen, Christian Rosenberg, additional, Phang, S., additional, Pleau, Louis-Philippe, additional, Poulain, Marcel, additional, Qin, Guanshi, additional, R. Majewski, Mathew, additional, Richardson, Kathleen A., additional, Rochette, Martin, additional, Sakr, H., additional, Sanghera, Jasbinder S., additional, Seddon, A.B., additional, Shaw, L. Brandon, additional, Shen, M., additional, Sojka, L., additional, Sujecki, S., additional, Talbot, Lauris, additional, Tang, Z.Q., additional, Tokita, Shigeki, additional, Vallée, Réal, additional, Wang, Pengfei, additional, and Woodward, Robert I., additional

Published
2022
Full Text
View/download PDF

19. Low bend loss waveguides enable compact, efficient 3D photonic chips

Author

Arriola, Alexander, Gross, Simon, Jovanovic, Nemanja, Charles, Ned, Tuthill, Peter G., Olaizola, Santiago M., Fuerbach, Alexander, and Withford, Michael J.

Subjects
Physics - Optics
Abstract

We present a novel method to fabricate low bend loss femtosecond-laser written waveguides that exploits the differential thermal stabilities of laser induced refractive index modifications. The technique consists of a two-step process; the first involves fabricating large multimode waveguides, while the second step consists of a thermal post-annealing process, which erases the outer ring of the refractive index profile, enabling single mode operation in the C-band. By using this procedure we report waveguides with sharp bends (down to 16.6 mm radius) and high (80%) normalized throughputs. This procedure was used to fabricate an efficient 3D, photonic device known as a pupil-remapper with negligible bend losses for the first time. The process will also allow for complex chips, based on 10's - 100's of waveguides to be realized in a compact foot print with short fabrication times., Comment: 9 pages, 6 figures

Published
2013
Full Text
View/download PDF

20. Fabrication of high quality sub-micron Au gratings over large areas with pulsed laser interference lithography for SPR sensors

Author

Arriola, Alexander, Rodriguez, Ainara, Perez, Noemi, Tavera, Txaber, Withford, Michael J., Fuerbach, Alexander, and Olaizola, Santiago M.

Subjects
Physics - Optics
Abstract

Metallic gratings were fabricated using high energy laser interference lithography with a frequency tripled Nd:YAG nanosecond laser. The grating structures were first recorded in a photosensitive layer and afterwards transferred to an Au film. High quality Au gratings with a period of 770 nm and peak-to-valley heights of 20-60 nm exhibiting plasmonic resonance response were successfully designed, fabricated and characterized., Comment: 10 pages, 7 figures

Published
2013
Full Text
View/download PDF

21. Starlight Demonstration of the Dragonfly Instrument: an Integrated Photonic Pupil Remapping Interferometer for High Contrast Imaging

Author

Jovanovic, N., Tuthill, P. G., Norris, B., Gross, S., Stewart, P., Charles, N., Lacour, S., Ams, M., Lawrence, J. S., Lehmann, A., Niel, C., Robertson, J. G., Marshall, G. D., Ireland, M., Fuerbach, A., and Withford, M. J.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Physics - Optics
Abstract

In the two decades since the first extra-solar planet was discovered, the detection and characterization of extra-solar planets has become one of the key endeavors in all of modern science. Recently direct detection techniques such as interferometry or coronography have received growing attention because they reveal the population of exoplanets inaccessible to Doppler or transit techniques, and moreover they allow the faint signal from the planet itself to be investigated. Next-generation stellar interferometers are increasingly incorporating photonic technologies due to the increase in fidelity of the data generated. Here, we report the design, construction and commissioning of a new high contrast imager; the integrated pupil-remapping interferometer; an instrument we expect will find application in the detection of young faint companions in the nearest star-forming regions. The laboratory characterisation of the instrument demonstrated high visibility fringes on all interferometer baselines in addition to stable closure phase signals. We also report the first successful on-sky experiments with the prototype instrument at the 3.9-m Anglo-Australian Telescope. Performance metrics recovered were consistent with ideal device behaviour after accounting for expected levels of decoherence and signal loss from the uncompensated seeing. The prospect of complete Fourier-coverage coupled with the current performance metrics means that this photonically-enhanced instrument is well positioned to contribute to the science of high contrast companions., Comment: 10 pages, 7 figures, accepted to Mon. Not. of Roy. Ast. Soc., 2012

Published
2012
Full Text
View/download PDF

22. Integrated photonic building blocks for next-generation astronomical instrumentation I: the multimode waveguide

Author

Jovanovic, Nemanja, Spaleniak, Izabela, Gross, Simon, Ireland, Michael, Lawrence, Jon S., Miese, Christopher, Fuerbach, Alexander, and Withford, Michael J.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Physics - Optics
Abstract

We report on the fabrication and characterization of composite multimode waveguide structures that consist of a stack of single-mode waveguides fabricated by ultrafast laser inscription. We explore 2 types of composite structures; those that consist of overlapping single-mode waveguides which offer the maximum effective index contrast and non overlapped structures which support multiple modes via strong evanescent coupling. We demonstrate that both types of waveguides have negligible propagation losses (to within experimental uncertainty) for light injected with focal ratios >8, which corresponds to the cutoff of the waveguides. We also show that right below cutoff, there is a narrow region where the injected focal ratio is preserved (to within experimental uncertainty) at the output. Finally, we outline the major application of these highly efficient waveguides; in a device that is used to reformat the light in the focal plane of a telescope to a slit, in order to feed a diffraction-limited spectrograph., Comment: 15 pages, 11 figures, accepted to Optics Express

Published
2012
Full Text
View/download PDF

24. Grating Inscription Into Fluoride Fibers: A Review

Author

Alexander Fuerbach, Gayathri Bharathan, and Martin Ams

Subjects
Fiber gratings, fiber Bragg gratings, Long period gratings, femtosecond laser fabrication, fluoride fibers, mid-infrared., Applied optics. Photonics, TA1501-1820, Optics. Light, QC350-467
Abstract

First demonstrated over four decades ago, fiber gratings, and in particular fiber Bragg gratings (FBGs), have become indispensable and ubiquitous components within fiber laser cavities as well as optical communication networks and sensor systems. Because of their overwhelming use, the bulk of published work to date has concentrated on fibers that are composed of silica-based glasses, yet those become virtually opaque at wavelengths above 2 μm, i.e., in the technically increasingly important mid-infrared part of the electromagnetic spectrum. Soft glass fluoride fibers on the other hand, in particular those composed of ZBLAN (abbreviation for ZrF4-BaF2-LaF3-AlF3-NaF), offer low-loss transmission out to wavelengths of up to almost 4 μm. However, while fiber manufacturing itself has now reached a high level of maturity, with passive fiber attenuation levels as low as 1 dB/km becoming commercially available, grating fabrication in these fibers remains challenging, and research into suitable inscription techniques is still a very active and ongoing scientific field. This review aims to provide an overview of work that has been done in this area to date with an emphasis on femtosecond-laser based fabrication methods.

Published
2019
Full Text
View/download PDF

38. Thermally stable high numerical aperture integrated waveguides and couplers for the 3 mu m wavelength range

Author

Fernandez, TT, Johnston, B, Mahmodi, H, Privat, K, Kabakova, I, Gross, S, Withford, M, and Fuerbach, A

Subjects
0205 Optical Physics
Abstract

The femtosecond laser direct write technique was used to fabricate mid-infrared compatible waveguide couplers into Suprasil 3001, a fused silica glass with an OH content of as low as ≤1 ppm. Smooth positive step-index change multi-scan waveguides were produced with a high index contrast of 1 × 10−2, measured directly using quadriwave lateral shearing interferometry. Waveguides were annealed at 400 °C for 15 h and found to be highly stable, with only

Published
2022

41. High-efficiency fluoroindate glass fiber laser

Author

Yan Ososkov, Jinho Lee, Toney T. Fernandez, Alex Fuerbach, and Stuart D. Jackson

Subjects
Atomic and Molecular Physics, and Optics
Abstract

We report the high-efficiency operation of a 3.05 µm dysprosium-doped fluoroindate glass fiber laser that is in-band pumped at 2.83 µm using an erbium-doped fluorozirconate glass fiber laser. The demonstrated slope efficiency of the free-running laser of 82% represents approximately 90% of the Stokes efficiency limit; a maximum output power of 0.36 W, the highest for a fluoroindate glass fiber laser, was recorded. Narrow-linewidth wavelength stabilization at 3.2 µm was achieved by utilizing a first-reported, to the best of our knowledge, high-reflectivity fiber Bragg grating inscribed in the Dy3+-doped fluoroindate glass. These results lay the foundation for future power-scaling of mid-infrared fiber lasers using fluoroindate glass.

Published
2023

44. Femtosecond laser-inscribed mid-infrared fiber Bragg gratings with enhanced thermal stability

Author

Luyi Xu, Benjamin Johnston, Toney T Fernandez, Simon Gross, Michael Withford, and Alex Fuerbach

Abstract

Thermally stable fiber Bragg gratings for the mid-IR are demonstrated. While the grating strength and design wavelength typically change during post-annealing, we report here on grating structures which are resilient to temperatures of up to 200°C

Published
2022

45. Contributors

Author

Jean Luc Adam, Oseas Alvarez, Martin Ams, Yigit Ozan Aydin, Ole Bang, E. Barney, T.M. Benson, Martin Bernier, Gayathri Bharathan, Tommy Boilard, Lynda E. Busse, J. Butterworth, François Chenard, Solenn Cozic, R.W. Crane, Heike Ebendorff-Heidepriem, M. Farries, Vincent Fortin, Alex Fuerbach, D. Furniss, Rafael R. Gattass, Martin Gorjan, Ori Henderson-Sapir, Darren Hudson, Stuart Jackson, D. Jayasuriya, Frédéric Jobin, Myungkoo Kang, Zhe Kang, Jianfeng Li, Hongyu Luo, D.P. Mabwa, Frédéric Maes, Matthew R. Majewski, J.J. Nunes, David J. Ottaway, H. Parnell, Christian Rosenberg Petersen, S. Phang, Louis-Philippe Pleau, Marcel Poulain, Guanshi Qin, Mathew R. Majewski, Kathleen A. Richardson, Martin Rochette, H. Sakr, Jasbinder S. Sanghera, A.B. Seddon, L. Brandon Shaw, M. Shen, L. Sojka, S. Sujecki, Lauris Talbot, Z.Q. Tang, Shigeki Tokita, Réal Vallée, Pengfei Wang, and Robert I. Woodward

Published
2022

Catalog

Books, media, physical & digital resources
See catalog results