Mixed metal dielectric gratings for pulse compression

We report on manufacturing and testing results of high efficiency mixed metal dielectric gratings (MMLD) for high power pulse compression applications. The gratings with 1780 l/mm are etched in the top low index layer of a Au-(SiO2/HfO2)4-SiO2 mirror stack. Various grating profiles manufactured in o...

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Published in	Optics express Vol. 18; no. 23; pp. 23776 - 23783
Main Authors	Neauport, J, Bonod, N, Hocquet, S, Palmier, S, Dupuy, G
Format	Journal Article
Language	English
Published	United States Optical Society of America - OSA Publishing 08.11.2010
Subjects	Engineering Sciences Optics Photonic Ultrafast lasers Damage Diffraction and gratings Femtosecond phenomena
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Abstract	We report on manufacturing and testing results of high efficiency mixed metal dielectric gratings (MMLD) for high power pulse compression applications. The gratings with 1780 l/mm are etched in the top low index layer of a Au-(SiO2/HfO2)4-SiO2 mirror stack. Various grating profiles manufactured in order to modify the near electric field distribution are damage tested on a facility operating at 1.053 µm, 500 fs pulse duration. We evidence that damage threshold is governed by the value of the maximum electric field intensity inside the grating pillar. Moreover thresholds close to 3 J/cm beam normal are obtained with this new MMLD grating being thus an interesting alternative to gold and pure dielectric gratings for pulse compression applications.
AbstractList	We report on manufacturing and testing results of high efficiency mixed metal dielectric gratings (MMLD) for high power pulse compression applications. The gratings with 1780 l/mm are etched in the top low index layer of a Au-(SiO2/HfO2)4-SiO2 mirror stack. Various grating profiles manufactured in order to modify the near electric field distribution are damage tested on a facility operating at 1.053 µm, 500 fs pulse duration. We evidence that damage threshold is governed by the value of the maximum electric field intensity inside the grating pillar. Moreover thresholds close to 3 J/cm beam normal are obtained with this new MMLD grating being thus an interesting alternative to gold and pure dielectric gratings for pulse compression applications. We report on manufacturing and testing results of high efficiency mixed metal dielectric gratings (MMLD) for high power pulse compression applications. The gratings with 1780 l/mm are etched in the top low index layer of a Au-(SiO(2)/HfO(2))(4)-SiO(2) mirror stack. Various grating profiles manufactured in order to modify the near electric field distribution are damage tested on a facility operating at 1.053 mu m, 500 fs pulse duration. We evidence that damage threshold is governed by the value of the maximum electric field intensity inside the grating pillar. Moreover thresholds close to 3 J/cm(2) beam normal are obtained with this new MMLD grating being thus an interesting alternative to gold and pure dielectric gratings for pulse compression applications.
Author	Dupuy, G Palmier, S Bonod, N Hocquet, S Neauport, J
Author_xml	– sequence: 1 givenname: J surname: Neauport fullname: Neauport, J email: jerome.neauport@cea.fr organization: Commissariat à l’énergie atomique, Centre d’études scientifiques et techniques d’Aquitaine, BP 2, 33114 Le Barp, France. jerome.neauport@cea.fr – sequence: 2 givenname: N surname: Bonod fullname: Bonod, N – sequence: 3 givenname: S surname: Hocquet fullname: Hocquet, S – sequence: 4 givenname: S surname: Palmier fullname: Palmier, S – sequence: 5 givenname: G surname: Dupuy fullname: Dupuy, G
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References	Bonod (oe-18-23-23776-R5) 2006; 260 Thielsch (oe-18-23-23776-R11) 2002; 41 Kosc (oe-18-23-23776-R12) 2006; 14 Perry (oe-18-23-23776-R3) 1995; 20 Blanchot (oe-18-23-23776-R7) 2010; 18 Stuart (oe-18-23-23776-R2) 1996; 13 Palmier (oe-18-23-23776-R6) 2009; 17 Strickland (oe-18-23-23776-R1) 1985; 56 Stuart (oe-18-23-23776-R4) 1995; 74 Blanchot (oe-18-23-23776-R8) 2006; 45 Neauport (oe-18-23-23776-R9) 2007; 15 Stolz (oe-18-23-23776-R10) 1993; 32
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Title	Mixed metal dielectric gratings for pulse compression
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