Search Results - "Kroth, Udo"

  • Showing 1 - 11 results of 11
Refine Results
  1. 1

    Harnessing Carrier Multiplication in Silicon Solar Cells Using UV Photons by Chen, Kexun, Setala, Olli E., Radfar, Behrad, Kroth, Udo, Vahanissi, Ville, Savin, Hele

    Published in IEEE photonics technology letters (15-12-2021)
    “…Silicon solar cells are known to suffer from poor emitter performance that is seen as reduced external quantum efficiency at wavelengths below 500 nm. This is…”
    Get full text
    Journal Article
  2. 2

    Robust UV/VUV/EUV PureB Photodiode Detector Technology With High CMOS Compatibility by Nanver, Lis K., Lin Qi, Mohammadi, Vahid, Mok, K. R. M., de Boer, Wiebe B., Golshani, Negin, Sammak, Amir, Scholtes, Thomas L. M., Gottwald, Alexander, Kroth, Udo, Scholze, Frank

    “…This paper gives an assessment of old and new data relevant to the optical and electrical performance of PureB photodiodes for application in the wavelength…”
    Get full text
    Journal Article
  3. 3

    Recent developments of wide-bandgap semiconductor based UV sensors by BenMoussa, A., Soltani, A., Schühle, U., Haenen, K., Chong, Y.M., Zhang, W.J., Dahal, R., Lin, J.Y., Jiang, H.X., Barkad, H.A., BenMoussa, B., Bolsee, D., Hermans, C., Kroth, U., Laubis, C., Mortet, V., De Jaeger, J.C., Giordanengo, B., Richter, M., Scholze, F., Hochedez, J.F.

    Published in Diamond and related materials (01-05-2009)
    “…Future missions for space astronomy and solar research require innovative vacuum ultraviolet (VUV) photodetectors. Present UV and VUV detectors exhibit serious…”
    Get full text
    Journal Article Conference Proceeding
  4. 4

    Characterization of Backside-Illuminated CMOS APS Prototypes for the Extreme Ultraviolet Imager On-Board Solar Orbiter by BenMoussa, Ali, Giordanengo, Boris, Gissot, Samuel, Meynants, Guy, Xinyang Wang, Wolfs, Bram, Bogaerts, Jan, Schühle, Udo, Berger, Guy, Gottwald, Alexander, Laubis, Christian, Kroth, Udo, Scholze, Frank

    Published in IEEE transactions on electron devices (01-05-2013)
    “…For the Extreme Ultraviolet Imager (EUI) of the Solar Orbiter mission, to be launched in 2017, CMOS active pixel sensor (APS) prototypes have been developed…”
    Get full text
    Journal Article
  5. 5

    Experimental determination of optical constants of MgF2 and AlF3 thin films in the vacuum ultra-violet wavelength region (60-124 nm), and its application to optical designs by BRIDOU, F, CUNIOT-PONSARD, M, DESVIGNES, J.-M, RICHTER, M, KROTH, U, GOTTWALD, A

    Published in Optics communications (01-04-2010)
    “…The investigation of some solar radiations of interest for astrophysicists requires optics in the 80–130 nm vacuum ultra-violet spectral range (VUV). In this…”
    Get full text
    Journal Article
  6. 6
  7. 7

    Polarizing and non-polarizing mirrors for the hydrogen Lyman-α radiation at 121.6 nm by Bridou, F., Cuniot-Ponsard, M., Desvignes, J.-M., Gottwald, A., Kroth, U., Richter, M.

    “…Efficient polarizing as well as non-polarizing mirrors for a wavelength of λ =121.6 nm (hydrogen Lyman- α radiation) are necessary to achieve an experimental…”
    Get full text
    Journal Article
  8. 8
  9. 9
  10. 10

    Design and Radiation Hardness of Next Generation Solar UV Radiometers by Gissot, Samuel, BenMoussa, Ali, Giordanengo, Boris, Soltani, Ali, Saito, Terubumi, Schuhle, Udo, Kroth, Udo, Gottwald, Alexander

    “…For next space-based ultraviolet (UV) solar radiometers, we propose a design based on subsystem components that are selected according to lessons learned from…”
    Get full text
    Conference Proceeding
  11. 11

    AlGaN-on-Si-Based 10- \mu\hbox Pixel-to-Pixel Pitch Hybrid Imagers for the EUV Range by Malinowski, P. E., Duboz, J., De Moor, P., John, J., Minoglou, K., Srivastava, P., Semond, F., Frayssinet, E., Giordanengo, B., BenMoussa, A., Kroth, U., Gottwald, A., Laubis, C., Mertens, R., Van Hoof, C.

    Published in IEEE electron device letters (01-11-2011)
    “…We report on the fabrication of extreme ultraviolet (EUV) hybrid imagers with backside-illuminated detector chip based on aluminum gallium nitride (AlGaN)…”
    Get full text
    Journal Article