Eloy Hernandez scite author profile

Eloy Hernandez

5Publications

47Citation Statements Received

36Citation Statements Given

How they've been cited

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Affiliations

Leibniz Institute for Astrophysics Potsdam, Laboratoire Procédés, Matériaux et Energie Solaire

Publications

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Fourier transform infrared absorption spectroscopy characterization of gaseous atmospheric pressure plasmas with 2 mm spatial resolution

Laroche

Vallade

Bazinette

et al. 2012

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This paper describes an optical setup built to record Fourier transform infrared (FTIR) absorption spectra in an atmospheric pressure plasma with a spatial resolution of 2 mm. The overall system consisted of three basic parts: (1) optical components located within the FTIR sample compartment, making it possible to define the size of the infrared beam (2 mm × 2 mm over a path length of 50 mm) imaged at the site of the plasma by (2) an optical interface positioned between the spectrometer and the plasma reactor. Once through the plasma region, (3) a retro-reflector module, located behind the plasma reactor, redirected the infrared beam coincident to the incident path up to a 45° beamsplitter to reflect the beam toward a narrow-band mercury-cadmium-telluride detector. The antireflective plasma-coating experiments performed with ammonia and silane demonstrated that it was possible to quantify 42 and 2 ppm of these species in argon, respectively. In the case of ammonia, this was approximately three times less than this gas concentration typically used in plasma coating experiments while the silane limit of quantification was 35 times lower. Moreover, 70% of the incoming infrared radiation was focused within a 2 mm width at the site of the plasma, in reasonable agreement with the expected spatial resolution. The possibility of reaching this spatial resolution thus enabled us to measure the gaseous precursor consumption as a function of their residence time in the plasma.

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First demonstration of OH suppression in a high-efficiency near-infrared spectrograph

Ellis

Bland-Hawthorn

Lawrence

et al. 2020

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Ground-based near-infrared astronomy is severely hampered by the forest of atmospheric emission lines resulting from the rovibrational decay of OH molecules in the upper atmosphere. The extreme brightness of these lines, as well as their spatial and temporal variability, makes accurate sky subtraction difficult. Selectively filtering these lines with OH suppression instruments has been a long standing goal for near-infrared spectroscopy. We have shown previously the efficacy of fibre Bragg gratings combined with photonic lanterns for achieving OH suppression. Here we report on PRAXIS, a unique near-infrared spectrograph that is optimised for OH suppression with fibre Bragg gratings. We show for the first time that OH suppression (of any kind) is possible with high overall throughput (18 per cent end-to-end), and provide examples of the relative benefits of OH suppression.

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Optomechanical design of PAWS, the Potsdam arrayed waveguide spectrograph

Hernandez

Stoll

Bauer

et al. 2020

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System integration of the Potsdam Arrayed Waveguide Spectrograph (PAWS)

Hernandez

Günther

Bauer

et al. 2022

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PRAXIS: an OH suppression optimised near infrared spectrograph

Ellis

Bland-Hawthorn

Bauer

et al. 2018

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Eloy Hernandez

Fourier transform infrared absorption spectroscopy characterization of gaseous atmospheric pressure plasmas with 2 mm spatial resolution

First demonstration of OH suppression in a high-efficiency near-infrared spectrograph

Optomechanical design of PAWS, the Potsdam arrayed waveguide spectrograph

System integration of the Potsdam Arrayed Waveguide Spectrograph (PAWS)

PRAXIS: an OH suppression optimised near infrared spectrograph

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