John D. Lindl

John D. Lindl's AcademicInfluence.com Rankings

John D. Lindl

Physics

#7504

World Rank

#9538

Historical Rank

Nuclear Physics

#127

World Rank

#162

Historical Rank

physics Degrees

Download Badge

Physics

John D. Lindl's Degrees

PhD Physics University of California, Davis
Masters Physics University of California, Davis
Bachelors Physics University of California, Davis

Why Is John D. Lindl Influential?

(Suggest an Edit or Addition)

(See a Problem?)

John D. Lindl's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

Development of the indirect‐drive approach to inertial confinement fusion and the target physics basis for ignition and gain (1995) (1977)
The physics basis for ignition using indirect-drive targets on the National Ignition Facility (2004) (1417)
Point design targets, specifications, and requirements for the 2010 ignition campaign on the National Ignition Facility (2010) (489)
Review of the National Ignition Campaign 2009-2012 (2014) (474)
Progress toward Ignition and Burn Propagation in Inertial Confinement Fusion (1992) (388)
Design and modeling of ignition targets for the National Ignition Facility (1995) (293)
Symmetric Inertial Confinement Fusion Implosions at Ultra-High Laser Energies (2009) (290)
Progress towards ignition on the National Ignition Facility (2011) (278)
Inertial Confinement Fusion: The Quest for Ignition and Energy Gain Using Indirect Drive (1998) (274)
Onset of hydrodynamic mix in high-velocity, highly compressed inertial confinement fusion implosions. (2013) (180)
Tuning the implosion symmetry of ICF targets via controlled crossed-beam energy transfer. (2009) (179)
A review of the ablative stabilization of the Rayleigh--Taylor instability in regimes relevant to inertial confinement fusion (1994) (170)
Symmetry tuning via controlled crossed-beam energy transfer on the National Ignition Facilitya) (2009) (147)
Two-dimensional simulation of fluid instability in laser-fusion pellets (1975) (139)
Description of the NIF Laser (2016) (137)
Burning plasma achieved in inertial fusion (2022) (134)
The experimental plan for cryogenic layered target implosions on the National Ignition Facility--The inertial confinement approach to fusion (2011) (130)
Capsule implosion optimization during the indirect-drive National Ignition Campaign (2010) (129)
High yield inertial confinement fusion target design for a z-pinch-driven hohlraum (1999) (125)
Metrics for long wavelength asymmetries in inertial confinement fusion implosions on the National Ignition Facility (2014) (123)
A generalized scaling law for the ignition energy of inertial confinement fusion capsules (2000) (122)
Thermonuclear ignition in inertial confinement fusion and comparison with magnetic confinement (2010) (122)
High-density carbon ablator experiments on the National Ignition Facilitya) (2013) (104)
A high-resolution integrated model of the National Ignition Campaign cryogenic layered experimentsa) (2012) (99)
Demonstration of ignition radiation temperatures in indirect-drive inertial confinement fusion hohlraums. (2010) (98)
Multistep redirection by cross-beam power transfer of ultrahigh-power lasers in a plasma (2012) (89)
Cryogenic thermonuclear fuel implosions on the National Ignition Facility (2012) (88)
Erratum: “Review of the National Ignition Campaign 2009-2012” [Phys. Plasmas 21, 020501 (2014)] (2014) (84)
Hydrodynamic stability and the direct drive approach to laser fusion (1990) (83)
Analysis of the National Ignition Facility ignition hohlraum energetics experiments a) (2011) (79)
Energy transfer between laser beams crossing in ignition hohlraums (2009) (75)
Precision shock tuning on the national ignition facility. (2012) (72)
Mode 1 drive asymmetry in inertial confinement fusion implosions on the National Ignition Facility (2014) (69)
A review of laser–plasma interaction physics of indirect-drive fusion (2013) (66)
Ponderomotive Force on Laser‐Produced Plasmas (1971) (66)
The velocity campaign for ignition on NIFa) (2012) (65)
Overview: Development of the National Ignition Facility and the Transition to a User Facility for the Ignition Campaign and High Energy Density Scientific Research (2016) (60)
Rev3 Update of Requirements for NIF Ignition Targets (2009) (59)
THOMSON SCATTERING FROM INERTIAL-CONFINEMENT-FUSION HOHLRAUM PLASMAS (1997) (59)
Hydrodynamic instability growth and mix experiments at the National Ignition Facilitya) (2014) (58)
Hohlraum energetics scaling to 520 TW on the National Ignition Facilitya) (2013) (54)
Assembly of high-areal-density deuterium-tritium fuel from indirectly driven cryogenic implosions. (2012) (53)
Nuclear imaging of the fuel assembly in ignition experimentsa) (2012) (53)
Irradiation of parylene disks with a 1.06 μm laser (1977) (51)
First implosion experiments with cryogenic thermonuclear fuel on the National Ignition Facility (2011) (49)
Ignition scaling laws and their application to capsule design (2000) (48)
Generalized measurable ignition criterion for inertial confinement fusion. (2010) (48)
The role of hot spot mix in the low-foot and high-foot implosions on the NIF (2017) (47)
Timely Delivery of Laser Inertial Fusion Energy (LIFE) (2010) (45)
Three-wavelength scheme to optimize hohlraum coupling on the National Ignition Facility. (2010) (45)
Design of inertial fusion implosions reaching the burning plasma regime (2022) (45)
Energy scaling of inertial confinement fusion targets for ignition and high gain (1997) (43)
Special Topic: Plans for the National Ignition Campaign (NIC) on the National Ignition Facility (NIF): On the threshold of initiating ignition experimentsa) (2011) (41)
Direct measurement of energetic electrons coupling to an imploding low-adiabat inertial confinement fusion capsule. (2012) (41)
Design and simulations of indirect drive ignition targets for NIF (2004) (39)
Progress in the indirect-drive National Ignition Campaign (2012) (38)
A Plan for the Development of Fusion Energy (2002) (33)
Update on Specifications for NIF Ignition Targets (2007) (33)
Progress toward a self-consistent set of 1D ignition capsule metrics in ICF (2018) (32)
A simple time-dependent analytic model of the P2 asymmetry in cylindrical hohlraums (1999) (31)
Performance of high-convergence, layered DT implosions with extended-duration pulses at the National Ignition Facility. (2013) (31)
Overview of inertial fusion research in the United States (2007) (30)
Implosion configurations for robust ignition using high- density carbon (diamond) ablator for indirect-drive ICF at the National Ignition Facility (2016) (29)
Observation and Simulation of Effects on Parylene Disks Irradiated at High Intensities with a 1.06-μm Laser (1976) (29)
Investigation of ion kinetic effects in direct-drive exploding-pusher implosions at the NIF (2014) (27)
Radiation converter physics and a method for obtaining the upper limit for gain in heavy ion fusion (1994) (27)
The effect of laser pulse shape variations on the adiabat of NIF capsule implosions (2013) (27)
NIF Ignition Target Requirements, Margins, and Uncertainties: Status February 2010 (2011) (26)
NIF Ignition Campaign Target Performance and Requirements: Status May 2012 (2013) (26)
Recent Livermore estimates on the energy gain of cryogenic single-shell ion beam targets (1985) (25)
Progress toward ignition at the National Ignition Facility (2011) (24)
Nonlinear Frequency Shift of a Plasma Wave (1972) (23)
ICF: Recent achievements and perspectives (1993) (22)
In-flight observations of low-mode ρR asymmetries in NIF implosionsa) (2015) (21)
The US inertial confinement fusion (ICF) ignition programme and the inertial fusion energy (IFE) programme (2003) (20)
The effect of shock dynamics on compressibility of ignition-scale National Ignition Facility implosions (2014) (20)
Effect of symmetry requirements on the wavelength scaling of directly driven laser fusion implosions (1983) (20)
Ultra-high (>30%) coupling efficiency designs for demonstrating central hot-spot ignition on the National Ignition Facility using a Frustraum (2019) (19)
Effect of capsule aspect ratio on hydrodynamic efficiency (1986) (19)
Optimization of the NIF ignition point design hohlraum (2007) (18)
Density gradients to reduce fluid instabilities in multishell inertial-confinement-fusion targets (1984) (18)
Yield and compression trends and reproducibility at NIF* (2020) (18)
Using Laser Entrance Hole Shields to Increase Coupling Efficiency in Indirect Drive Ignition Targets for the National Ignition Facility (NIF) (2005) (18)
Research with High-Power Short-Wavelength Lasers (1985) (17)
The size and structure of the laser entrance hole in gas-filled hohlraums at the National Ignition Facility (2015) (16)
Prediction of ignition implosion performance using measurements of Low-deuterium surrogates (2010) (16)
Fusion Simulation Project: Integrated Simulation and Optimization of Magnetic Fusion Systems (2001) (16)
Effect of a superthermal electron tail on the yield ratio obtained from DT-targets illuminated with a shaped laser pulse (1974) (16)
Radiative shocks produced from spherical cryogenic implosions at the National Ignition Facility (2013) (16)
Update 2015 on Target Fabrication Requirements for NIF Layered Implosions, with Emphasis on Capsule Support and Oxygen Modulations in GDP (2016) (16)
LIFE Pure Fusion Target Designs: Status and Prospects (2011) (15)
Lawrence Livermore National Laboratory's activities to achieve ignition by x-ray drive on the National Ignition Facility (1998) (14)
Experimental achievement and signatures of ignition at the National Ignition Facility. (2022) (14)
The role of the National Ignition Facility in energy production from inertial fusion (1999) (12)
Indirect-drive ablative Richtmyer Meshkov node scaling (2016) (12)
Design of an inertial fusion experiment exceeding the Lawson criterion for ignition. (2022) (12)
A Review of the U.S. Department of Energy's Inertial Fusion Energy Program (2003) (11)
Thermonuclear ignition and the onset of propagating burn in inertial fusion implosions. (2018) (11)
Review of target studies for heavy ion fusion (1986) (11)
The Edward Teller medal lecture: The evolution toward Indirect Drive and two decades of progress toward ICF ignition and burn (2008) (10)
Lead (Pb) Hohlraum: Target for Inertial Fusion Energy (2013) (9)
Demonstration of high-energy 2 omega (526.5 nm) operation on the National Ignition Facility Laser System. (2008) (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 (2016) (8)
Yield and hydrodynamic instability versus absorbed energy for a uniformly doped beryllium 250 eV ignition capsule (2004) (8)
Recent results on Nova (1994) (7)
Fuel convergence sensitivity in indirect drive implosions (2021) (6)
Experiments conducted in the burning plasma regime with inertial fusion implosions (2021) (6)
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 (2019) (6)
Introduction to the physics of ICF capsules (1989) (6)
Progress on Achieving the ICF Conditions Needed for High Gain (1989) (6)
Metrics for implosion performance with enhanced energy coupling on NIF (2021) (5)
Symmetry tuning and high energy coupling for an Al capsule in a Au rugby hohlraum on NIF (2020) (5)
Target Design Activities for Inetrial Fusion Energy at Lawrence Livermore National Laboratory (2000) (5)
Hydrodynamic instabilities and mix studies on NIF: predictions, observations, and a path forward (2013) (4)
Physics of ignition for ICF capsules (1989) (4)
Laser-driven implosion of hollow pellets (1974) (4)
An Engineering Test Facility for Heavy Ion Fusion – Options and Scaling (2001) (4)
Laser Program Annual Report 1983 Excerpts (1984) (4)
Symmetry and illumination uniformity requirements for high density laser-driven implosions (1976) (3)
The US ICF Ignition Program and the Inertial Fusion Program (2003) (3)
Hydroscaling indirect-drive implosions on the National Ignition Facility (2022) (3)
Progress in laboratory high gain ICF (inertial confinement fusion): Prospects for the future (1988) (3)
Ignition target design for the National Ignition Facility (1996) (3)
Report of the Fusion Energy Sciences Advisory Committee. Panel on Integrated Simulation and Optimization of Magnetic Fusion Systems (2002) (2)
Fusion Energy Advisory Committee (FEAC): Panel 7 Report on Inertial Fusion Energy (1994) (2)
Performance of DT layered implosions on the NIF (2013) (2)
Summary of Opportunities in the Fusion Energy Sciences Program (1999) (2)
Feasibility of High Yield / High Gain NIF Capsules (1999) (2)
The Heavy Ion Fusion Program in the U.S.A. (2000) (2)
PSFC / JA-14-3 In-flight observations of low-mode R asymmetries in NIF implosions (2014) (2)
Update on indirect drive ignitin target design for NIF (2003) (2)
Compression measurements in ablatively driven inertial confinement fusion (1986) (2)
Low aspect ratio double shells for high density and high gain (1977) (2)
Update 2017 on Target Fabrication Requirements for High-Performance NIF Implosion Experiments (2018) (2)
High performance inertial fusion targets (1977) (2)
Report of the FESAC Inertial Fusion Energy review panel (1996) (2)
NIF ignition target requirements, margins, and uncertainties (2007) (2)
Publisher's Note: “Fuel convergence sensitivity in indirect drive implosions” [Phys. Plasmas 28, 042705 (2021)] (2021) (1)
Fusion Simulation Project Workshop (2002) (1)
An IFE development strategy (1991) (1)
Shock timing on the National Ignition Facility: First Experiments (2011) (1)
The Path to Ignition on NIF (2005) (1)
Inertially confined fusion using heavy ion drivers (1991) (1)
Rollup of specifications for NIF ignition targets into an error budget (2005) (1)
Symmetry issues in a class of ion beam targets using sufficiently short direct drive pulses (1986) (1)
Snowmass Fusion Summer Study ( July 11-23 , 1999 ) Inertial Fusion Concepts Working Group Final Reports of the Subgroups (1999) (1)
Ignition Capsules with Aerogel-Supported Liquid DT Fuel For The National Ignition Facility (2011) (1)
Report of the FESAC Panel on a Burning Plasma Program Strategy to Advance Fusion Energy (2001) (1)
Reaching 30% energy coupling efficiency for a high-density-carbon capsule in a gold rugby hohlraum on NIF (2021) (1)
Low aspect ratio double shell targets for high density and high gain and a comparison with ultra thin shells (1977) (1)
Measurements of Low-Deuterium Surrogates for the Prediction of Ignition Implosion Performance (2009) (1)
Impact of hohlraum cooling on ignition metrics for inertial fusion implosions (2023) (1)
The effect of shock dynamics on compressibility of ignition-scale NIF implosions (2014) (1)
Ignition tuning for the National Ignition Campaign (2013) (1)
Low power multiple shell fusion targets for use with electron and ion beams (1975) (1)
Introduction to the Nova technical contract (1996) (1)
Inertial Fusion Energy Development Approaches for Direct and Indirect-Drive (1996) (1)
Effects of density gradient modification on fluid instability in thermonuclear micro-implosions (1976) (1)
Report of the FEAC Inertial Fusion Energy Review Panel: July 1996 (1999) (0)
29aB09 The U.S. Program in Inertial Fusion Energy and the status of the National Ignition Facility (2001) (0)
High yield inertial fusion design for a z-pinch accelerator (1998) (0)
Design of a two shock, high yield high-density carbon NIF target (2013) (0)
TO THE PHYSICS OF ICF CAPSULES * (2009) (0)
The Effects of Fluid Instabilities on Laser Fusion Pellets (1975) (0)
Reaching a burning plasma and ignition using smaller capsules/Hohlraums, higher radiation temperatures, and thicker ablator/ice on the national ignition facility (2023) (0)
NIF ignition target requirements, margins, and uncertainties: Rev3.1 (2008) (0)
Wavelength scaling of implosion symmetry, ablation pressure, and hydrodynamic efficiency in laser fusion (1981) (0)
The Development of ICF and the countdown to ignition experiments on the NIF (2007) (0)
NIF Ignition Hohlraum Designs With and Without Laser Entrance Hole Liners (2009) (0)
NIF ignition target requirements, margins, and uncertainties: Status Nov. 2009 (2009) (0)
High yield ICF target design for a Z-pinch driven hohlraum (1998) (0)
Simulations of intermediate density laser fusion targets: recent progress in design and analysis (1977) (0)
Inertial Fusion Energy with Fast Ignition : Progress in Integrated Hohlraum Designs (2008) (0)
Summary of Inertial Fusion (2002) (0)
Simulations of super-ellipse hohlraum targets as a path to high neutron yields (2017) (0)
Thomson scattering from inertial confinement fusion plasmas (1997) (0)
Program Annual Report 4979 ( U ) Excerpts Scientific (2005) (0)
Effects of Rayleigh--Taylor instability on the implosion of laser fusion targets (1974) (0)
Recent Nova experimental results (1992) (0)
Lower Temperature Ignition Hohlraums for the National Ignition Facility (2006) (0)
Two-dimensional simulation of hydrodynamic instability in laser fusion implosions (1974) (0)
Hot spot conditions achieved in DT implosions on the NIF (2014) (0)
Models of electron conductivity which lead to ablation stabilization of fluid instabilities in laser-driven implosions (1975) (0)
1993 Edward Teller medal recipients (2008) (0)
Shock timing on the National Ignition Facility: The first precision tuning series (2011) (0)
Inertial Fusion Qualifiers and Qualms (1993) (0)
Large-scale Implosions Using HDC Ablators for the Frustraum (2018) (0)
Recent Developments in Ignition Target Designs for the National Ignition Facility (2000) (0)
Sensitivity of yield and compression to velocity, shock timing, coast time and asymmetry in indirect-drive NIF implosions (2018) (0)
2009 Exploring Giant Planets on NIF: A New Generation of Condensed Matter Workshop (2009) (0)
Stability and symmetry requirements of electron and ion beam fusion targets (1975) (0)
Comparison of LASNEX calculations with experimental results of parylene disc irradiations at 1.06 $mu$m (1975) (0)
Progress in Target Design for IFE for Ion Beams and Lasers (2001) (0)
Alpha heating and implosion performance in cryogenic layered NIF implosions (2012) (0)
Multiple shell fusion targets (1975) (0)
1980 ICF Annual Report Excerpts (2007) (0)
Behavior of fluid instabilities in laser fusion pellets: results of 2-D calculations (1975) (0)
Nova upgrade program: ignition and beyond (1993) (0)
A model for degradation of indirectly driven ICF implosions by supra-thermal electron preheat (2014) (0)
TuPo2.XX SYMMETRY TUNING OF NIF IGNITION TARGETS (2003) (0)
Progress on the physics of ignition for radiation driven inertial confinement fusion (ICF) targets (1996) (0)
Status and Plans of the National Ignition Campaign May 31 , 2012 (2012) (0)
Compression versus first shock strength in indirect-drive NIF implosions (2016) (0)
A generalized scaling law for the ignition energy of ICF capsules (1999) (0)
Ignition Capsules with Aerogel-Supported DT Fuel for the National Ignition Facility (NIF) and for Reactor Applications (2011) (0)
Labs Collaborate on ICF Research (1995) (0)
Lead (Pb) Hohlraum: Target for Fusion Energy (2012) (0)
Updates to NIF ignition point design (2011) (0)
Optimizing the NIF ignition point design hohlraum and laser beam focal spot designs (2006) (0)
Early Time ICF Capsule Implosion Sensitivities (2016) (0)
Ignition on the NIF: a path towards inertial fusion energy (2017) (0)
Recent experimental results on Nova (1993) (0)
Large-scale implosions for Frustraum using green and blue light (2019) (0)
Laser Program Annual Report - 1979 Unclassified Excerpts (2004) (0)
An experimental and numerical study of top/bottom drive asymmetry on NIF implosions (2013) (0)
High-Z foil acceleration using hydrodynamic pressure of radiatively heated matter (1996) (0)
ICF CAPSULE IMPLOSION SCALINGS AND SENSITIVITIES (2015) (0)
Publisher Correction: Burning plasma achieved in inertial fusion (2022) (0)
Thomson scattering from fusion plasmas (1997) (0)
An ICF (Inertial Confinement Fusion) power plant development program (1990) (0)
Characterization of laser-produced fusion plasmas with thomson scattering (1997) (0)
Single shock implosion on the NIF (2013) (0)
Corrigendum: Reaching 30% energy coupling efficiency for a high-density-carbon capsule in a gold rugby hohlraum on NIF (2021 Nucl. Fusion 64 086028) (2021) (0)
Physics and Designs of Ignition Capsules Using High-Density Carbon (HDC) Ablators: Robust Designs, Stability, and Shock Mergers (2015) (0)
Publisher Correction: Burning plasma achieved in inertial fusion (2022) (0)
Indirect-Drive Inertial Confinement Fusion (2016) (0)

This paper list is powered by the following services:

John D. Lindl's Academic­Influence.com Rankings

John D. Lindl's Degrees

Why Is John D. Lindl Influential?

John D. Lindl's Published Works

Published Works

John D. Lindl's AcademicInfluence.com Rankings