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34 results on '"Gretzinger, Thomas"'

1. First on-sky demonstration of an integrated-photonic nulling-interferometer: The GLINT instrument

Author

Norris, Barnaby R. M., Cvetojevic, Nick, Lagadec, Tiphaine, Jovanovic, Nemanja, Gross, Simon, Arriola, Alexander, Gretzinger, Thomas, Martinod, Marc-Antoine, Guyon, Olivier, Lozi, Julien, Withford, Michael J., Lawrence, Jon S., and Tuthill, Peter

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

The characterisation of exoplanets is critical to understanding planet diversity and formation, their atmospheric composition and the potential for life. This endeavour is greatly enhanced when light from the planet can be spatially separated from that of the host star. One potential method is nulling interferometry, where the contaminating starlight is removed via destructive interference. The GLINT instrument is a photonic nulling interferometer with novel capabilities that has now been demonstrated in on-sky testing. The instrument fragments the telescope pupil into sub-apertures that are injected into waveguides within a single-mode photonic chip. Here, all requisite beam splitting, routing and recombination is performed using integrated photonic components. We describe the design, construction and laboratory testing of our GLINT pathfinder instrument. We then demonstrate the efficacy of this method on sky at the Subaru Telescope, achieving a null-depth precision on sky of $\sim10^{-4}$ and successfully determining the angular diameter of stars (via their null-depth measurements) to milli-arcsecond accuracy. A statistical method for analysing such data is described, along with an outline of the next steps required to deploy this technique for cutting-edge science.

Published
2019
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2. Role of ion migrations and structural reorganisations in femtosecond laser direct-written chalcogenide glass waveguides

Author

Gretzinger, Thomas, Fernandez, Toney Teddy, Gross, Simon, Arriola, Alexander, and Withford, Michael

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

Formation of femtosecond laser direct-written positive refractive index waveguides in Gallium Lanthanum Sulphide (GLS) glass is explained for the first time. Evidence of structural changes and ion migration are presented using Raman spectroscopy and electron probe microanalysis (EPMA), respectively. 2-D Raman spectra maps reveal a peak shift and full-width at half maximum variations in the symmetric vibrations of GaS4 main band. For the first time, the 2D map of the boson band was successfully used to identify and understand the material densification profile in a high refractive index glass waveguide. Finally EPMA provided the evidence of ion migration due to sulphur and the observation of an anion (S2-) migration causing material modification is also reported for the first time., Comment: 9 Pages, 4 Figures

Published
2018

5. Achromatic nulling interferometry and fringe tracking with 3D-photonic tricouplers with GLINT

Author

Martinod, Marc-Antoine, primary, Deyi Maria Klinner-teo, Teresa, additional, Tuthill, Peter G., additional, Gross, Simon, additional, Arcadi, Elizabeth, additional, Douglass, Glen, additional, Webb, Jacinda, additional, Norris, Barnaby R. M., additional, Guyon, Olivier, additional, Lozi, Julien, additional, Lagadec, Tiphaine, additional, Jovanovic, Nemanja, additional, Cvetojevic, Nick, additional, Arriola, Alexander, additional, Gretzinger, Thomas, additional, Withford, Michael J., additional, Lawrence, Jon S., additional, and Leon-Saval, Sergio, additional

Published
2022
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6. Optimal self-calibration and fringe tracking in photonic nulling interferometers using machine learning

Author

Norris, Barnaby R. M., primary, Martinod, Marc-Antoine, additional, Tuthill, Peter G., additional, Gross, Simon, additional, Cvetojevic, Nick, additional, Jovanovic, Nemanja, additional, Lagadec, Tiphaine, additional, Deyi Maria Klinner-teo, Teresa, additional, Guyon, Olivier, additional, Lozi, Julien, additional, Deo, Vincent, additional, Vievard, Sébastien B., additional, Arriola, Alex, additional, Gretzinger, Thomas, additional, Lawrence, Jon S., additional, and Withford, Michael J., additional

Published
2022
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7. Integrated photonics for mid-infrared stellar interferometry

Author

Gretzinger, Thomas

Subjects
Physics::Optics, Other education not elsewhere classified
Abstract

Nulling-interferometry is a powerful tool to advance beyond the resolving power of ground based observatories with the prospect of directly detecting exoplanets. By suppressing the radiation of the host star through destructive interference, the emission from a young planet can be observed. A favourable contrast between a planet and a star as well as reduced atmospheric disturbances are found centered around 4 µm wavelength. For high stability and robustness, it is preferable to deploy integrated optics devices based on waveguide technology. Their advancement however is hindered in the mid-infrared wavelength range due to the lack of suitable host materials as well as compatible manufacturing techniques to fabricate low loss photonic devices. This thesis details the development of mid-infrared optical waveguides and the key components for an integrated nulling interferometer chip in gallium-lanthanum-sulphur glass, utilising femtosecond laser direct-writing. By combining the multiscan technique with the cumulative heating fabrication, single-mode waveguides with a propagation loss of 0.22±0.02 dB/cm at 4 µm were realised. Evidence of structural changes and ion migration in these positive refractive index waveguides are presented using Raman spectroscopy and electron probe micro-analysis (EPMA), respectively. 2-D Raman maps revealed full-width at half maximum variations and a peak shift in the symmetric vibrations of the GaS4 main Raman band. The 2-D spectral map of the Boson peak band was used to understand and identify the material densification profile in a high refractive index glass waveguide. EPMA provided evidence of sulphur ion migration and the observation of an anion (S2) migration causing material modification. These low-loss waveguides were the foundation of S-bends with a negligible bending loss and Y-splitters with a 50/50 power division across a 600 nm wavelength window. Directional couplers were developed from symmetric into asymmetric directional couplers with a 50/50power splitting ratio over a broad wavelength range (3.8 - 4.05 µm). Furthermore, multimode interference couplers are presented with an even splitting capability between 3.75 - 4.25 µm with no polarisation dependency. Both types of couplers feature a high broadband extinction ratio. These main building blocks are developed to create a future compact nulling interferometer with a total projected intrinsic loss of < 1 dB, a value that is sufficient to perform future on-sky experiments in relatively short observation runs on ground based telescopes.

Published
2022
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8. Very high resolution spectro-interferometry with wavefront sensing capabilities on Subaru/SCExAO using photonics

Author

Vievard, Sébastien, primary, Ahn, Kyohoon, additional, Arriola, Alexander, additional, Barjot, Kevin, additional, Cvetojevic, Nick, additional, Deo, Vincent, additional, Gretzinger, Thomas, additional, Gross, Simon, additional, Guyon, Olivier, additional, Huby, Elsa, additional, Jovanovic, Nemanja, additional, Kotani, Takayuki, additional, Lacour, Sylvestre, additional, Lagadec, Tiphaine, additional, Lallement, Manon, additional, Lapeyrere, Vincent, additional, Lozi, Julien, additional, Marchis, Franck, additional, Martin, Guillermo, additional, Martinod, Marc-Antoine, additional, Norris, Barnaby, additional, Perrin, Guy, additional, Rouan, Daniel, additional, Skaf, Nour, additional, Tuthill, Peter, additional, and Withford, Michael, additional

Published
2021
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9. Very high resolution spectro-interferometry with wavefront sensing capabilities on Subaru/SCExAO using photonics

Author

Shaklan, Stuart B., Ruane, Garreth J., Vievard, S., Ahn, Kyohoon, Arriola, Alexander, Barjot, Kevin, Cvetojevic, Nick, Deo, Vincent, Duchène, G., Gretzinger, Thomas, Gross, Simon, Guyon, Olivier, Huby, Elsa, Jovanovic, N., Kotani, Takayuki, Lacour, Sylvestre, Lagadec, Tiphaine, Lallement, Manon, Lapeyrere, Vincent, Lozi, Julien, Marchis, Franck, Martin, Guillermo, Martinod, Marc-Antoine, Norris, Barnaby, Perrin, Guy, Rouan, Daniel, Skaf, Nour, Tuthill, Peter, Withford, Michael, Shaklan, Stuart B., Ruane, Garreth J., Vievard, S., Ahn, Kyohoon, Arriola, Alexander, Barjot, Kevin, Cvetojevic, Nick, Deo, Vincent, Duchène, G., Gretzinger, Thomas, Gross, Simon, Guyon, Olivier, Huby, Elsa, Jovanovic, N., Kotani, Takayuki, Lacour, Sylvestre, Lagadec, Tiphaine, Lallement, Manon, Lapeyrere, Vincent, Lozi, Julien, Marchis, Franck, Martin, Guillermo, Martinod, Marc-Antoine, Norris, Barnaby, Perrin, Guy, Rouan, Daniel, Skaf, Nour, Tuthill, Peter, and Withford, Michael

Abstract

Post Extreme Adaptive-Optics (ExAO) spectro-interferometers design allows high contrast imaging with an inner working angle down to half the theoretical angular resolution of the telescope. This regime, out of reach for conventional ExAO imaging systems, is obtained thanks to the interferometric recombination of multiple sub-apertures of a single telescope, using single mode waveguides to remove speckle noise. The SCExAO platform at the Subaru telescope hosts two instruments with such design, coupled with a spectrograph. The FIRST instrument operates in the Visible (600-800nm, R~400) and is based on pupil remapping using single-mode fibers. The GLINT instrument works in the NIR (1450-1650nm, R~160) and is based on nulling interferometry. We present here how these photonic instruments have the unique capability to simultaneously do high contrast imaging and be included in the wavefront sensing architecture of SCExAO.

Published
2021

10. The first multi-baseline and multi-band, photonic nuller at the Subaru telescope: the GLINT nulling interferometer

Author

Tuthill, Peter G., Mérand, Antoine, Sallum, Stephanie, Martinod, Marc-Antoine, Norris, Barnaby, Lagadec, Tiphaine, Jovanovic, Nemanja, Cvetojevic, Nick, Gross, Simon, Arriola, Alexander, Gretzinger, Thomas, Withford, Michael J., Guyon, Olivier, Lozi, Julien, Lawrence, Jon S., Leon-Saval, Sergio, Tuthill, Peter G., Mérand, Antoine, Sallum, Stephanie, Martinod, Marc-Antoine, Norris, Barnaby, Lagadec, Tiphaine, Jovanovic, Nemanja, Cvetojevic, Nick, Gross, Simon, Arriola, Alexander, Gretzinger, Thomas, Withford, Michael J., Guyon, Olivier, Lozi, Julien, Lawrence, Jon S., and Leon-Saval, Sergio

Abstract

With thousands of confirmed exoplanets, the era of discovery is giving way to that of characterization. Direct imaging is crucial, but extremely difficult due to high star-to-planet contrasts and high angular resolutions. Nulling interferometry, which suppresses contaminating starlight via destructive interference, aims to meet this challenge. A pathfinder of this technique is the GLINT nuller: a 6-baseline, spectrally dispersed pupil-remapping interferometer deployed at the Subaru telescope, in which a single photonic chip performs all the critical optical processes. We present the instrument, novel data processing based on self-calibrating methods, laboratory characterization and the latest on-sky results.

Published
2020

12. The first multi-baseline and multi-band, photonic nuller at the Subaru telescope: the GLINT nulling interferometer

Author

Martinod, Marc-Antoine, primary, Norris, Barnaby, additional, Lagadec, Tiphaine, additional, Jovanovic, Nemanja, additional, Cvetojevic, Nick, additional, Gross, Simon, additional, Arriola, Alexander, additional, Gretzinger, Thomas, additional, Withford, Michael J., additional, Guyon, Olivier, additional, Lozi, Julien, additional, Lawrence, Jon S., additional, Tuthill, Peter G., additional, and Leon-Saval, Sergio, additional

Published
2020
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16. Optimal self-calibration and fringe tracking in photonic nulling interferometers using machine learning

Author

Mérand, Antoine, Sallum, Stephanie, Sanchez-Bermudez, Joel, Norris, Barnaby R. M., Martinod, Marc-Antoine, Tuthill, Peter, Gross, Simon, Cvetojevic, Nick, Jovanovic, Nemanja, Lagadec, Tiphaine, Klinner-teo, Teresa, Guyon, Olivier, Lozi, Julien, Deo, Vincent, Vievard, Sébastien, Arriola, Alex, Gretzinger, Thomas, Lawrence, Jon S., and Withford, Michael J.

Published
2022
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17. Achromatic nulling interferometry and fringe tracking with 3D-photonic tricouplers with GLINT

Author

Mérand, Antoine, Sallum, Stephanie, Sanchez-Bermudez, Joel, Martinod, Marc-Antoine, Klinner-Teo, Teresa, Tuthill, Peter, Gross, Simon, Arcadi, Elizabeth, Douglass, Glen, Webb, Jacinda, Norris, Barnaby, Guyon, Olivier, Lozi, Julien, Lagadec, Tiphaine, Jovanovic, Nemanja, Cvetojevic, Nick, Arriola, Alexander, Gretzinger, Thomas, Withford, Michael J., Lawrence, Jon S., and Leon-Saval, Sergio

Published
2022
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18. First on-sky demonstration of an integrated-photonic nulling interferometer: the GLINT instrument

Author

Norris, Barnaby R M, primary, Cvetojevic, Nick, additional, Lagadec, Tiphaine, additional, Jovanovic, Nemanja, additional, Gross, Simon, additional, Arriola, Alexander, additional, Gretzinger, Thomas, additional, Martinod, Marc-Antoine, additional, Guyon, Olivier, additional, Lozi, Julien, additional, Withford, Michael J, additional, Lawrence, Jon S, additional, and Tuthill, Peter, additional

Published
2019
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21. First on-sky demonstration of an integrated-photonic nulling interferometer: the GLINT instrument.

Author

Norris, Barnaby R M, Cvetojevic, Nick, Lagadec, Tiphaine, Jovanovic, Nemanja, Gross, Simon, Arriola, Alexander, Gretzinger, Thomas, Martinod, Marc-Antoine, Guyon, Olivier, Lozi, Julien, Withford, Michael J, Lawrence, Jon S, and Tuthill, Peter

Subjects
INTERFEROMETERS, ATMOSPHERIC composition, ORIGIN of planets, SPECKLE interferometry, TELESCOPES, INTERFEROMETRY, EXTRASOLAR planets
Abstract

The characterization of exoplanets is critical to understanding planet diversity and formation, their atmospheric composition, and the potential for life. This endeavour is greatly enhanced when light from the planet can be spatially separated from that of the host star. One potential method is nulling interferometry, where the contaminating starlight is removed via destructive interference. The GLINT instrument is a photonic nulling interferometer with novel capabilities that has now been demonstrated in on-sky testing. The instrument fragments the telescope pupil into sub-apertures that are injected into waveguides within a single-mode photonic chip. Here, all requisite beam splitting, routing, and recombination are performed using integrated photonic components. We describe the design, construction, and laboratory testing of our GLINT pathfinder instrument. We then demonstrate the efficacy of this method on sky at the Subaru Telescope, achieving a null-depth precision on sky of ∼10−4 and successfully determining the angular diameter of stars (via their null-depth measurements) to milliarcsecond accuracy. A statistical method for analysing such data is described, along with an outline of the next steps required to deploy this technique for cutting-edge science. [ABSTRACT FROM AUTHOR]

Published
2020
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