P. Brummitt scite author profile

The Vulcan Nd : glass laser at the Central Laser Facility is a Petawatt (10 15 W) interaction facility available to the UK and international user community. The facility came online to users in 2002 and considerable experience has been gained operating the Vulcan facility in this mode. The facility is designed to deliver irradiance on target of 10 21 W cm −2 for a wide-ranging experimental programme in fundamental physics and advanced applications. This includes the interaction of super-high-intensity light with matter, fast ignition fusion research, photon induced nuclear reactions, electron and ion acceleration by light waves and the exploration of the exotic world of plasma physics dominated by relativity.

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EMP control and characterization on high-power laser systems

Bradford

Woolsey

Scott

et al. 2018

High Pow Laser Sci Eng

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Giant electromagnetic pulses (EMP) generated during the interaction of high-power lasers with solid targets can seriously degrade electrical measurements and equipment. EMP emission is caused by the acceleration of hot electrons inside the target, which produce radiation across a wide band from DC to terahertz frequencies. Improved understanding and control of EMP is vital as we enter a new era of high repetition rate, high intensity lasers (e.g. the Extreme Light Infrastructure). We present recent data from the VULCAN laser facility that demonstrates how EMP can be readily and effectively reduced. Characterization of the EMP was achieved using B-dot and D-dot probes that took measurements for a range of different target and laser parameters. We demonstrate that target stalk geometry, material composition, geodesic path length and foil surface area can all play a significant role in the reduction of EMP. A combination of electromagnetic wave and 3D particle-in-cell simulations is used to inform our conclusions about the effects of stalk geometry on EMP, providing an opportunity for comparison with existing charge separation models.

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A modified Thomson parabola spectrometer for high resolution multi-MeV ion measurements—Application to laser-driven ion acceleration

Carroll

Brummitt

Neely

et al. 2010

Nuclear Instruments and Methods in Physics Research Section A:

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Vulcan petawatt: Design, operation and interactions at 5 × 1020 Wcm−2

et al. 2005

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Radiological characterisation of photon radiation from ultra-high-intensity laser–plasma and nuclear interactions

et al. 2006

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With the increasing number of multi-terawatt (10(12) W) and petawatt (10(15) W) laser interaction facilities being built, the need for a detailed understanding of the potential radiological hazards is required and their impact on personnel is of major concern. Experiments at a number of facilities are being undertaken to achieve this aim. This paper describes the recent work completed on the Vulcan petawatt laser system at the CCLRC Rutherford Appleton Laboratory, where photon doses of up to 43 mSv at 1 m per shot have been measured during commissioning studies. It also overviews the shielding in place on the facility in order to comply with the Ionising Radiation Regulations 1999 (IRR99), maintaining a dose to personnel of less than 1 mSv yr(-1) and as low as reasonably practicable (ALARP).

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P. Brummitt

Vulcan Petawatt—an ultra-high-intensity interaction facility

EMP control and characterization on high-power laser systems

A modified Thomson parabola spectrometer for high resolution multi-MeV ion measurements—Application to laser-driven ion acceleration

Vulcan petawatt: Design, operation and interactions at 5 × 1020 Wcm−2

Radiological characterisation of photon radiation from ultra-high-intensity laser–plasma and nuclear interactions

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