Single and double shell ignition targets for the national ignition facility at 527 nm
Autor: | David Strozzi, R. F. Sacks, C. C. Widmayer, Joshua Sauppe, B. Raymond, John Kline, D. H. Munro, Laura Berzak Hopkins, Lin Yin, Kenneth R. Manes, Mary L. Spaeth, Brian Albright, Eric Loomis, Doug Wilson |
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Rok vydání: | 2021 |
Předmět: |
Physics
Backscatter business.industry Implosion Condensed Matter Physics Laser 01 natural sciences 010305 fluids & plasmas law.invention Ignition system symbols.namesake Optics Hohlraum Brillouin scattering law 0103 physical sciences symbols 010306 general physics business National Ignition Facility Raman scattering |
Zdroj: | Physics of Plasmas. 28:052704 |
ISSN: | 1089-7674 1070-664X |
Popis: | Converting and using the National Ignition Facility (NIF) to deliver 527 nm light instead of its current 351 nm would allow the laser to deliver more energy and power to ignition targets. We update previous 527 nm target design work to reflect more contemporary target designs using high-density carbon capsules and low density helium gas filled Hohlraums. We extend single shell capsule designs based on current experimental results to higher energy and power and also explore double shell capsules, both driven by green light. These studies were completed using detailed pulse shapes found for targets that converged with acceptable 2D implosion symmetries and then used the Lava Lamp II code to confirm their feasibility at NIF. A 1.2× dimensional scaleup of one tuned NIF target at the limit of its current 351 nm capabilities and shot 170827 uses 3.3 MJ, at the limit of the current NIF's 527 nm capability. With the less-structured pulse of a double shell target, 3.7 MJ could be delivered by the laser. Our LPI calculations do not preclude operation at 527 nm, particularly for low fill Hohlraums, and suggest that the stimulated Raman backscatter may be no worse than the small quantities seen in 170827; stimulated forward Raman scattering may be present. If Stimulated Brillouin Scattering is too great, the much greater laser bandwidth available at 527 nm could be used to decrease backscatter. These larger targets with higher energy and power may offer a better chance of achieving ignition with only modest changes to the NIF laser. |
Databáze: | OpenAIRE |
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