2004
DOI: 10.1063/1.1807004
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The LEAF picosecond pulse radiolysis facility at Brookhaven National Laboratory

Abstract: Development of high-voltage pulse-slicer unit with variable pulse duration for pulse radiolysis system Rev. Sci. Instrum. 83, 024709 (2012); 10.1063/1.3685245 The Brookhaven National Laboratory electron beam ion source for RHICa) Rev. Sci. Instrum. 81, 02A509 (2010); 10.1063/1.3292937 Double-decker femtosecond electron beam accelerator for pulse radiolysis Rev. Sci. Instrum. 77, 043302 (2006);The BNL Laser-Electron Accelerator Facility (LEAF) uses a laser-pulsed photocathode, radio-frequency electron gun to ge… Show more

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Cited by 139 publications
(127 citation statements)
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“…In 1960, pulse radiolysis facilities had a time resolution of the order of the microsecond [19]. The time resolution was then lowered to the nanosecond [32] and then picosecond time scale [33][34][35][36][37][38]. Among the species to be studied, the hydrated electron [39][40][41][42] and the  OH radical [43] have received most attention.…”
Section: Water Radiolysis: a Brief Historical Surveymentioning
confidence: 99%
“…In 1960, pulse radiolysis facilities had a time resolution of the order of the microsecond [19]. The time resolution was then lowered to the nanosecond [32] and then picosecond time scale [33][34][35][36][37][38]. Among the species to be studied, the hydrated electron [39][40][41][42] and the  OH radical [43] have received most attention.…”
Section: Water Radiolysis: a Brief Historical Surveymentioning
confidence: 99%
“…21 Recently, new types of electron accelerators based on laser-driven photocathode linacs have been specifically developed for radiation chemistry. [22][23][24][25][26][27] At Osaka University scientists have produced single electron bunches that are less than 100 fs in duration (at 32 MeV) using a photocathode linac. 24,28 Despite the ultrashort bunch lengths produced with this new generation of accelerators the best time resolution attainable for transient absorption pulse radiolysis experiments is typically 4-10 ps.…”
Section: Introductionmentioning
confidence: 99%
“…The main approaches to mitigating this current limit in future DTEM designs are the same as have been developed for other high brightness electron sources [25,26]: increase the electric field at the surface and decrease the acceleration gap. This may involve a shorter electron gun, a higher extraction field near the cathode, an RF accelerator [26], or eventually very advanced solutions like the use of a cooled gas to emit an ultracold gas of electrons [21]. Ultimately, the electron gun must generate both high peak current and high beam quality [27].…”
Section: Gun and Condenser Systemmentioning
confidence: 99%