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1. The impact of low-mode symmetry on inertial fusion energy output in the burning plasma state.

2. Burning plasma achieved in inertial fusion

3. Measurement of hydrodynamic instability growth during the deceleration of an inertial confinement fusion implosion

5. A recoverable gas-cell diagnostic for the National Ignition Facility.

6. Plasma stopping-power measurements reveal transition from non-degenerate to degenerate plasmas

7. Publisher Correction: Burning plasma achieved in inertial fusion

8. Reaching a burning plasma and ignition using smaller capsules/Hohlraums, higher radiation temperatures, and thicker ablator/ice on the national ignition facility

9. A direct-drive exploding-pusher implosion as the first step in development of a monoenergetic charged-particle backlighting platform at the National Ignition Facility

10. Yield degradation mechanisms for two-shock capsules evaluated through simulations

11. Experimental achievement and signatures of ignition at the National Ignition Facility

12. Design of an inertial fusion experiment exceeding the Lawson criterion for ignition

13. Results and future plans of the Lithium Tokamak eXperiment (LTX)

14. Lawson Criterion for Ignition Exceeded in an Inertial Fusion Experiment

15. Thermal decoupling of deuterium and tritium during the ICF shock-convergence phase

16. Time-Resolved Fuel Density Profiles of the Stagnation Phase of Indirect-Drive Inertial Confinement Implosions

17. Hotspot conditions achieved in inertial confinement fusion experiments on the National Ignition Facility

19. Mixing in ICF implosions on the National Ignition Facility caused by the fill-tube

20. A simulation-based model for understanding the time dependent x-ray drive asymmetries and error bars in indirectly driven implosions on the National Ignition Facility

21. Approaching a burning plasma on the NIF

22. A 3D dynamic model to assess the impacts of low-mode asymmetry, aneurysms and mix-induced radiative loss on capsule performance across inertial confinement fusion platforms

23. Beyond alpha-heating: driving inertially confined fusion implosions toward a burning-plasma state on the National Ignition Facility

24. Using a 2-shock 1D platform at NIF to measure the effect of convergence on mix and symmetry

26. First demonstration of improved capsule implosions by reducing radiation preheat in uranium vs gold hohlraums

27. Increasing stagnation pressure and thermonuclear performance of inertial confinement fusion capsules by the introduction of a high-Z dopant

28. Hydrodynamic instabilities seeded by the X-ray shadow of ICF capsule fill-tubes

29. Development of new platforms for hydrodynamic instability and asymmetry measurements in deceleration phase of indirectly driven implosions on NIF

30. Fusion Energy Output Greater than the Kinetic Energy of an Imploding Shell at the National Ignition Facility

31. First D+D neutron image at the National Ignition Facility

32. Exploring the limits of case-to-capsule ratio, pulse length, and picket energy for symmetric hohlraum drive on the National Ignition Facility Laser

33. Variable convergence liquid layer implosions on the National Ignition Facility

34. Comparison of plastic, high density carbon, and beryllium as indirect drive NIF ablators

35. Visualizing deceleration-phase instabilities in inertial confinement fusion implosions using an “enhanced self-emission” technique at the National Ignition Facility

36. Measuring the shock impedance mismatch between high-density carbon and deuterium at the National Ignition Facility

38. Update 2017 on Target Fabrication Requirements for High-Performance NIF Implosion Experiments

39. On the importance of minimizing “coast-time” in x-ray driven inertially confined fusion implosions

40. On krypton-doped capsule implosion experiments at the National Ignition Facility

41. Examining the radiation drive asymmetries present in the high foot series of implosion experiments at the National Ignition Facility

43. The role of hot spot mix in the low-foot and high-foot implosions on the NIF

44. Symmetry control of an indirectly driven high-density-carbon implosion at high convergence and high velocity

45. The relationship between gas fill density and hohlraum drive performance at the National Ignition Facility

46. Publisher’s Note: Development of improved radiation drive environment for high foot implosions at the National Ignition Facility [Phys. Rev. Lett. 117 , 225002 (2016)]

47. First Liquid Layer Inertial Confinement Fusion Implosions at the National Ignition Facility

48. Development of Improved Radiation Drive Environment for High Foot Implosions at the National Ignition Facility

49. Indirect drive ignition at the National Ignition Facility

50. Experimental results of radiation-driven, layered deuterium-tritium implosions with adiabat-shaped drives at the National Ignition Facility

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