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Items: 6

1.

NOMAD spectrometer on the ExoMars trace gas orbiter mission: part 2-design, manufacturing, and testing of the ultraviolet and visible channel.

Patel MR, Antoine P, Mason J, Leese M, Hathi B, Stevens AH, Dawson D, Gow J, Ringrose T, Holmes J, Lewis SR, Beghuin D, van Donink P, Ligot R, Dewandel JL, Hu D, Bates D, Cole R, Drummond R, Thomas IR, Depiesse C, Neefs E, Equeter E, Ristic B, Berkenbosch S, Bolsée D, Willame Y, Vandaele AC, Lesschaeve S, De Vos L, Van Vooren N, Thibert T, Mazy E, Rodriguez-Gomez J, Morales R, Candini GP, Pastor-Morales MC, Sanz R, Aparicio Del Moral B, Jeronimo-Zafra JM, Gómez-López JM, Alonso-Rodrigo G, Pérez-Grande I, Cubas J, Gomez-Sanjuan AM, Navarro-Medina F, BenMoussa A, Giordanengo B, Gissot S, Bellucci G, Lopez-Moreno JJ.

Appl Opt. 2017 Apr 1;56(10):2771-2782. doi: 10.1364/AO.56.002771.

PMID:
28375240
2.

Optical and radiometric models of the NOMAD instrument part II: the infrared channels - SO and LNO.

Thomas IR, Vandaele AC, Robert S, Neefs E, Drummond R, Daerden F, Delanoye S, Ristic B, Berkenbosch S, Clairquin R, Maes J, Bonnewijn S, Depiesse C, Mahieux A, Trompet L, Neary L, Willame Y, Wilque V, Nevejans D, Aballea L, Moelans W, De Vos L, Lesschaeve S, Van Vooren N, Lopez-Moreno JJ, Patel MR, Bellucci G; NOMAD Team.

Opt Express. 2016 Feb 22;24(4):3790-805.

PMID:
27333621
3.

NOMAD spectrometer on the ExoMars trace gas orbiter mission: part 1--design, manufacturing and testing of the infrared channels.

Neefs E, Vandaele AC, Drummond R, Thomas IR, Berkenbosch S, Clairquin R, Delanoye S, Ristic B, Maes J, Bonnewijn S, Pieck G, Equeter E, Depiesse C, Daerden F, Van Ransbeeck E, Nevejans D, Rodriguez-Gómez J, López-Moreno JJ, Sanz R, Morales R, Candini GP, Pastor-Morales MC, Aparicio del Moral B, Jeronimo-Zafra JM, Gómez-López JM, Alonso-Rodrigo G, Pérez-Grande I, Cubas J, Gomez-Sanjuan AM, Navarro-Medina F, Thibert T, Patel MR, Bellucci G, De Vos L, Lesschaeve S, Van Vooren N, Moelans W, Aballea L, Glorieux S, Baeke A, Kendall D, De Neef J, Soenen A, Puech PY, Ward J, Jamoye JF, Diez D, Vicario-Arroyo A, Jankowski M.

Appl Opt. 2015 Oct 1;54(28):8494-520. doi: 10.1364/AO.54.008494.

4.

Accurate simulation of MPPT methods performance when applied to commercial photovoltaic panels.

Cubas J, Pindado S, Sanz-Andrés Á.

ScientificWorldJournal. 2015;2015:914212. doi: 10.1155/2015/914212. Epub 2015 Mar 22.

5.

The cup anemometer, a fundamental meteorological instrument for the wind energy industry. Research at the IDR/UPM Institute.

Pindado S, Cubas J, Sorribes-Palmer F.

Sensors (Basel). 2014 Nov 12;14(11):21418-52. doi: 10.3390/s141121418.

6.

Aerodynamic analysis of cup anemometers performance: the stationary harmonic response.

Pindado S, Cubas J, Sanz-Andrés A.

ScientificWorldJournal. 2013 Dec 4;2013:197325. doi: 10.1155/2013/197325. eCollection 2013.

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