Electron radiography using a table-top laser-cluster plasma accelerator
We explore the use of a laser-based electron gun for applications in transmission electron radiography and microscopy at electron energies up to 2 MeV. This new approach holds the promise to overcome some limitations of existing conventional electron guns at high beam energies especially for ultrafa...
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| Published in | Journal of physics. D, Applied physics Vol. 46; no. 24; pp. 245501 - 1-8 |
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| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
IOP Publishing
19.06.2013
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| Subjects | |
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| Abstract | We explore the use of a laser-based electron gun for applications in transmission electron radiography and microscopy at electron energies up to 2 MeV. This new approach holds the promise to overcome some limitations of existing conventional electron guns at high beam energies especially for ultrafast applications. Our laser-electron gun is based on titanium-sapphire, ultrashort pulse lasers to drive electron acceleration in a plasma. The focused laser pulse travels in a tailored Ar gas target and accelerates electrons to MeV energy in less than a millimetre. As a first application, we use this electron beam to perform contact transmission electron radiography of cm-scale thin and thick samples. We obtain transmission electron radiography of organic and inorganic dense objects over a field of view more than 50 mm wide. The images are well exposed and show details of both thick and thin samples. The spatial resolution for the current geometrical configuration was found to be approximately 60 µm and was limited by geometrical effects combined with the intrinsic detector resolution and diffusion in the sample. |
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| AbstractList | We explore the use of a laser-based electron gun for applications in transmission electron radiography and microscopy at electron energies up to 2 MeV. This new approach holds the promise to overcome some limitations of existing conventional electron guns at high beam energies especially for ultrafast applications. Our laser-electron gun is based on titanium-sapphire, ultrashort pulse lasers to drive electron acceleration in a plasma. The focused laser pulse travels in a tailored Ar gas target and accelerates electrons to MeV energy in less than a millimetre. As a first application, we use this electron beam to perform contact transmission electron radiography of cm-scale thin and thick samples. We obtain transmission electron radiography of organic and inorganic dense objects over a field of view more than 50 mm wide. The images are well exposed and show details of both thick and thin samples. The spatial resolution for the current geometrical configuration was found to be approximately 60 mu m and was limited by geometrical effects combined with the intrinsic detector resolution and diffusion in the sample. We explore the use of a laser-based electron gun for applications in transmission electron radiography and microscopy at electron energies up to 2 MeV. This new approach holds the promise to overcome some limitations of existing conventional electron guns at high beam energies especially for ultrafast applications. Our laser-electron gun is based on titanium-sapphire, ultrashort pulse lasers to drive electron acceleration in a plasma. The focused laser pulse travels in a tailored Ar gas target and accelerates electrons to MeV energy in less than a millimetre. As a first application, we use this electron beam to perform contact transmission electron radiography of cm-scale thin and thick samples. We obtain transmission electron radiography of organic and inorganic dense objects over a field of view more than 50 mm wide. The images are well exposed and show details of both thick and thin samples. The spatial resolution for the current geometrical configuration was found to be approximately 60 µm and was limited by geometrical effects combined with the intrinsic detector resolution and diffusion in the sample. |
| Author | Bussolino, G C Pikuz, T Gizzi, L A Levato, T Koester, P Faenov, A Giulietti, D Giulietti, A Labate, L |
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| Cites_doi | 10.1103/PhysRevLett.101.105002 10.1063/1.3210785 10.1109/27.509991 10.1038/nature05393 10.1063/1.4792057 10.1063/1.2336105 10.1007/s00340-005-1813-6 10.1002/jemt.20350 10.1109/TPS.2011.2164622 10.1088/0031-9155/50/13/N02 10.1063/1.2958203 10.1017/S0263034608000104 10.1109/TPS.2008.927143 10.1038/377606a0 10.1002/jemt.20574 10.1016/0030-4018(85)90120-8 10.1118/1.3253902 10.1038/nature02963 10.1063/1.1899309 10.1103/PhysRevLett.110.015003 10.1038/nature02900 10.1017/S0263034606050373 10.1007/s003400200795 10.1103/PhysRevSTAB.13.104701 10.1038/nature02939 10.1103/PhysRevLett.43.267 |
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| References | 22 23 Gizzi L A (8) 2010 24 26 Butson M J (27) 2005; 50 28 Koester P (34) 2013 29 Murakami M (13) 2008 Cecchetti C A (20) 2010 30 31 10 33 Hasegawa B H (25) 1991 Cipiccia S Reitsma A Islam M R Fiuza F Martins J Marti M Silvia L Jaroszynski D (11) 2008 14 15 Gamucci A (12) 2009 16 17 18 19 1 2 3 4 5 6 7 Veisz L (32) 2011; 8079 9 21 |
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| SubjectTerms | Beams (radiation) Contact Detectors Electron energy Lasers Radiography Spatial resolution Titanium-Sapphire |
| Title | Electron radiography using a table-top laser-cluster plasma accelerator |
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