B
Benjamin Thomas
Researcher at New Jersey Institute of Technology
Publications - 42
Citations - 612
Benjamin Thomas is an academic researcher from New Jersey Institute of Technology. The author has contributed to research in topics: Lidar & Scattering. The author has an hindex of 12, co-authored 41 publications receiving 508 citations. Previous affiliations of Benjamin Thomas include University of Lyon & City College of New York.
Papers
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Mineral dust photochemistry induces nucleation events in the presence of SO2
Yoan Dupart,Stephanie King,Bettina Nekat,Andreas Nowak,Alfred Wiedensohler,Hartmut Herrmann,Grégory David,Benjamin Thomas,Alain Miffre,Patrick Rairoux,Barbara D'Anna,Christian George +11 more
TL;DR: In this paper, the authors provide evidence for an alternate pathway in which a series of reactions under solar UV light produces first gaseous sulfuric acid as an intermediate product before surface-bound sulfate.
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Experimental investigations of laser-induced forward transfer process of organic thin films
Benjamin Thomas,Anne Patricia Alloncle,Philippe Delaporte,Marc Sentis,Sébastien Sanaur,Michael Barret,Philippe Collot +6 more
TL;DR: In this article, transfer induced by laser of thin layers of a conducting polymer, the poly(3,4-ethylenedioxythiophene)-poly(styrenesulfonate), for applications in plastic electronics is discussed.
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Optical remote sensing for monitoring flying mosquitoes, gender identification and discussion on species identification
TL;DR: This paper reports on the remote characterization of flying mosquitoes using a continuous-wave infrared optical remote sensing system and discusses the limitations of using wing beat frequency alone to identify insect species.
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Retrieving simulated volcanic, desert dust and sea-salt particle properties from two/three-component particle mixtures using UV-VIS polarization lidar and T matrix
TL;DR: In this paper, the spectral and polarization properties of the light backscattered by atmospheric particles are analyzed using a dual-wavelength polarization lidar and T-matrix numerical simulations and air mass back trajectories.
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Sensitive and accurate dual-wavelength UV-VIS polarization detector for optical remote sensing of tropospheric aerosols
TL;DR: In this paper, an UV-VIS polarization lidar has been designed and specified for monitoring aerosols in the troposphere, showing the ability to precisely address low particle depolarization ratios, in the range of a few percent.