Scientific Results

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Author: Bratina Vojko Category: Conference proceedings 

1) An ultra-lightweight, large aperture, deployable telescope for advanced lidar applications
By: Mazzinghi P., Bratina V., Ferruzzi D., Gambicorti L., Simonetti F., Zuccaro Marchi A., Salinari P., Lisi F., Olivier M., Bursi A., Pereira Do Carmo J. Year: 2017 (Cit.: 0 DOI: 10.1117/12.2308098)

2) Large aperture and wide field of view space telescope for the detection of ultra high energy cosmic rays and neutrinos
By: Mazzinghi P., Bratina V., Gambicorti L., Simonetti F., Zuccaro Marchi A. Year: 2017 (Cit.: 0 DOI: 10.1117/12.2308097)

3) The Fluid Science Laboratory on board the Columbus module of the International Space Station with the Geoflow experiment
By: Zuccaro Marchi A., Piccolo C., Albanese C., Carotenuto L., Dell’Aversana P., Peluso F., Bratina V., Trinchero G. Year: 2008 (Cit.: 0)

4) Advanced LIDAR technologies for active remore sensing of vegetation fluorescence from space
By: Guzzi R., Mazzinghi P., Cecchi G., Bratina V., Zuccaro Marchi A., Ferruzzi D., Simonetti F., Gambicorti L., Olivier M., Bursi A, Lisi F., Salinari P., Gallieni D, Pereira Do Carmo J. Year: 2007 (Cit.: 0)

5) Deployable, lightweight and large aperture spaceborne telescope for LIDAR based earth observations
By: Mazzinghi P., Bratina V., Ferruzzi D., Gambicorti L., Simonetti F., Zuccaro Marchi A., Salinari P., Lisi F., Olivier M., Bursi A., Gallieni D., Biasi R., Pereira J. Year: 2007 (Cit.: 2 DOI: 10.1117/12.737853)

6) Lightweight active controlled primary mirror technology demonstrator
By: Mazzinghi P., Bratina V., Ferruzzi D., Gambicorti L., Simonetti F., Zuccaro Marchi A., Salinari P., Lisi F., Olivier M., Bursi A., Gallieni D., Biasi R., Pereira J. Year: 2007 (Cit.: 0 DOI: 10.1117/12.737839)

7) Study of possible mission profiles and requirements for space based remote sensing of vegetation fluorescence
By: Bratina V., Mazzinghi P., Zuccaro Marchi A., Ferruzzi D., Simometti F. Year: 2007 (Cit.: 0)

8) Large aperture and wide field of view space telescope for the detection of Ultra High Energy Cosmic Rays and neutrinos
By: Mazzinghi P., Bratina V., Gambicorti L., Simonetti F., Zuccaro Marchi A. Year: 2006 (Cit.: 0)

9) An ultra-lightweight, large aperture, deployable telescope for
advanced LIDAR applications
By: Mazzinghi P., Bratina V., Ferruzzi D., Gambicorti L., Simonetti F., Zuccaro Marchi A., Salinari P., Lisi F., Olivier M., Bursi A., Pereira J. Year: 2006 (Cit.: 0)

10) Il Fluid Science Lab sul modulo Columbus
By: Bratina V., Mazzinghi P., Pensavalle E., Trinchero G. Year: 2006 (Cit.: 0)

11) UHE neutrino detection from space. Toward a dedicated neutrino observatory
By: Bottai S., Bratina V., Mazzinghi P., Spillantini P. Year: 2005 (Cit.: 0)

12) A wide field reflector for the detection of high energy cosmic rays from space
By: Bratina V., Mazzinghi P., Tiribilli B. Year: 2004 (Cit.: 0)

13) Overview of possible optical adapters for EUSO
By: Mazzinghi P., Bratina V., Gambicorti L. Year: 2003 (Cit.: 1)

14) Wide field, large aperture, Schmidt camera for the detection of high energy cosmic rays from space
By: Mazzinghi P., Bratina V., Tiribilli B. Year: 2003 (Cit.: 3)

15) Wide field, large aperture, Schmidt camera for the detection of high energy cosmic rays from space
By: Mazzinghi P., Bratina V., Tiribilli B. Year: 2002 (Cit.: 0 DOI: 10.1117/12.458540)

16) Preliminary scientific results from UVSTAR: The FUV spectra of BD+28° 4211 and NGC 246
By: Stalio R., Bratina V., Holberg J. Year: 1998 (Cit.: 0)