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  1. AU="Aybar, N"
  2. AU="Majidian Ba, Mandy"
  3. AU=Botero-Rodriguez Felipe AU=Botero-Rodriguez Felipe
  4. AU="Pozo, Franco Andres Del"
  5. AU="Ohno, Hideaki"
  6. AU="Mohit"
  7. AU="Jzerman, Hans I"
  8. AU="Deepali Jain"
  9. AU=Cimen S.
  10. AU="Laskey, Daniel"
  11. AU="Pérez, Noelia"
  12. AU="Shaf Keshavjee"
  13. AU=Stewart J. D.
  14. AU="Victor Daka"
  15. AU="Iglesias, C"
  16. AU="Williams, Howard L."
  17. AU=Tilmann Christopher
  18. AU=Stefansson Steingrimur
  19. AU="Schindler, Tobias"
  20. AU="Araújo, Cristina de O"
  21. AU=Goda Jayant S.
  22. AU="Peditto, Piera"
  23. AU="Dünn, Hans-Wilhelm"
  24. AU=Tyznik Aaron J.
  25. AU="Siddiqui, Fasih Sami"
  26. AU="Abt, S."
  27. AU="Sultana, Sufia"
  28. AU="Yuan, Shengwang"
  29. AU="Sedehizadeh, Saam"
  30. AU=Jeon Young-Woo
  31. AU=Narayanan Navaneeth
  32. AU=Beckwith Kyle A.
  33. AU=Anderson Robert H
  34. AU=Trindade P A
  35. AU=Gohil R
  36. AU="Zhengyi, Wu"
  37. AU=Wessels J A M
  38. AU="Porter, Lavinia"
  39. AU=Al-Mayman Sulaiman

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  1. Artikel ; Online: Hohlraum Reheating from Burning NIF Implosions.

    Rubery, M S / Rosen, M D / Aybar, N / Landen, O L / Divol, L / Young, C V / Weber, C / Hammer, J / Moody, J D / Moore, A S / Kritcher, A L / Zylstra, A B / Hurricane, O / Pak, A E / MacLaren, S / Zimmerman, G / Harte, J / Woods, T

    Physical review letters

    2024  Band 132, Heft 6, Seite(n) 65104

    Abstract: As fusion experiments at the National Ignition Facility (NIF) approach and exceed breakeven, energy from the burning capsule is predicted to couple to the gold walls and reheat the hohlraum. On December 5, 2022, experiment N221204 exceeded target ... ...

    Abstract As fusion experiments at the National Ignition Facility (NIF) approach and exceed breakeven, energy from the burning capsule is predicted to couple to the gold walls and reheat the hohlraum. On December 5, 2022, experiment N221204 exceeded target breakeven, historically achieving 3.15 MJ of fusion energy from 2.05 MJ of laser drive; for the first time, energy from the igniting capsule reheated the hohlraum beyond the peak laser-driven radiation temperature of 313 eV to a peak of 350 eV, in less than half a nanosecond. This reheating effect has now been unambiguously observed by the two independent Dante calorimeter systems across multiple experiments, and is shown to result from reheating of the remnant tungsten-doped ablator by the exploding core, which is heated by alpha deposition.
    Sprache Englisch
    Erscheinungsdatum 2024-02-23
    Erscheinungsland United States
    Dokumenttyp Journal Article
    ZDB-ID 208853-8
    ISSN 1079-7114 ; 0031-9007
    ISSN (online) 1079-7114
    ISSN 0031-9007
    DOI 10.1103/PhysRevLett.132.065104
    Datenquelle MEDical Literature Analysis and Retrieval System OnLINE

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  2. Artikel ; Online: Azimuthal magnetic field distribution in gas-puff Z-pinch implosions with and without external magnetic stabilization.

    Aybar, N / Dozieres, M / Reisman, D B / Cvejić, M / Mikitchuk, D / Conti, F / Kroupp, E / Doron, R / Maron, Y / Beg, F N

    Physical review. E

    2021  Band 103, Heft 5-1, Seite(n) 53205

    Abstract: An experimental study of the magnetic field distribution in gas-puff Z pinches with and without a preembedded axial magnetic field (B_{z0}) is presented. Spatially resolved, time-gated spectroscopic measurements were made at the Weizmann Institute of ... ...

    Abstract An experimental study of the magnetic field distribution in gas-puff Z pinches with and without a preembedded axial magnetic field (B_{z0}) is presented. Spatially resolved, time-gated spectroscopic measurements were made at the Weizmann Institute of Science on a 300 kA, 1.6 μs rise time pulsed-power driver. The radial distribution of the azimuthal magnetic field, B_{θ}, during the implosion, with and without a preembedded axial magnetic field of B_{z0}=0.26T, was measured using Zeeman polarization spectroscopy. The spectroscopic measurements of B_{θ} were consistent with the corresponding values of B_{θ} inferred from current measurements made with a B-dot probe. One-dimensional magnetohydrodynamic simulations, performed with the code trac-ii, showed agreement with the experimentally measured implosion trajectory, and qualitatively reproduced the experimentally measured radial B_{θ} profiles during the implosion when B_{z0}=0.26T was applied. Simulation results of the radial profile of B_{θ} without a preembedded axial magnetic field did not qualitatively match experimental results due to magneto-Rayleigh-Taylor (MRT) instabilities. Our analysis emphasizes the importance of MRT instability mitigation when studying the magnetic field and current distributions in Z pinches. Discrepancies of the simulation results with experiment are discussed.
    Sprache Englisch
    Erscheinungsdatum 2021-06-17
    Erscheinungsland United States
    Dokumenttyp Journal Article
    ZDB-ID 2844562-4
    ISSN 2470-0053 ; 2470-0045
    ISSN (online) 2470-0053
    ISSN 2470-0045
    DOI 10.1103/PhysRevE.103.053205
    Datenquelle MEDical Literature Analysis and Retrieval System OnLINE

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  3. Artikel ; Online: Role of collisionality and radiative cooling in supersonic plasma jet collisions of different materials.

    Collins, G W / Valenzuela, J C / Speliotopoulos, C A / Aybar, N / Conti, F / Beg, F N / Tzeferacos, P / Khiar, B / Bott, A F A / Gregori, G

    Physical review. E

    2020  Band 101, Heft 2-1, Seite(n) 23205

    Abstract: Currently there is considerable interest in creating scalable laboratory plasmas to study the mechanisms behind the formation and evolution of astrophysical phenomena such as Herbig-Haro objects and supernova remnants. Laboratory-scaled experiments can ... ...

    Abstract Currently there is considerable interest in creating scalable laboratory plasmas to study the mechanisms behind the formation and evolution of astrophysical phenomena such as Herbig-Haro objects and supernova remnants. Laboratory-scaled experiments can provide a well diagnosed and repeatable supplement to direct observations of these extraterrestrial objects if they meet similarity criteria demonstrating that the same physics govern both systems. Here, we present a study on the role of collision and cooling rates on shock formation using colliding jets from opposed conical wire arrays on a compact pulsed-power driver. These diverse conditions were achieved by changing the wire material feeding the jets, since the ion-ion mean free path (λ_{mfp-ii}) and radiative cooling rates (P_{rad}) increase with atomic number. Low Z carbon flows produced smooth, temporally stable shocks. Weakly collisional, moderately cooled aluminum flows produced strong shocks that developed signs of thermal condensation instabilities and turbulence. Weakly collisional, strongly cooled copper flows collided to form thin shocks that developed inconsistently and fragmented. Effectively collisionless, strongly cooled tungsten flows interpenetrated, producing long axial density perturbations.
    Sprache Englisch
    Erscheinungsdatum 2020-03-13
    Erscheinungsland United States
    Dokumenttyp Journal Article
    ZDB-ID 2844562-4
    ISSN 2470-0053 ; 2470-0045
    ISSN (online) 2470-0053
    ISSN 2470-0045
    DOI 10.1103/PhysRevE.101.023205
    Datenquelle MEDical Literature Analysis and Retrieval System OnLINE

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  4. Artikel ; Online: Observations and properties of the first laboratory fusion experiment to exceed a target gain of unity.

    Pak, A / Zylstra, A B / Baker, K L / Casey, D T / Dewald, E / Divol, L / Hohenberger, M / Moore, A S / Ralph, J E / Schlossberg, D J / Tommasini, R / Aybar, N / Bachmann, B / Bionta, R M / Fittinghoff, D / Gatu Johnson, M / Geppert Kleinrath, H / Geppert Kleinrath, V / Hahn, K D /
    Rubery, M S / Landen, O L / Moody, J D / Aghaian, L / Allen, A / Baxamusa, S H / Bhandarkar, S D / Biener, J / Birge, N W / Braun, T / Briggs, T M / Choate, C / Clark, D S / Crippen, J W / Danly, C / Döppner, T / Durocher, M / Erickson, M / Fehrenbach, T / Freeman, M / Havre, M / Hayes, S / Hilsabeck, T / Holder, J P / Humbird, K D / Hurricane, O A / Izumi, N / Kerr, S M / Khan, S F / Kim, Y H / Kong, C / Jeet, J / Kozioziemski, B / Kritcher, A L / Lamb, K M / Lemos, N C / MacGowan, B J / Mackinnon, A J / MacPhee, A G / Marley, E V / Meaney, K / Millot, M / Di Nicola, J-M G / Nikroo, A / Nora, R / Ratledge, M / Ross, J S / Shin, S J / Smalyuk, V A / Stadermann, M / Stoupin, S / Suratwala, T / Trosseille, C / Van Wonterghem, B / Weber, C R / Wild, C / Wilde, C / Wooddy, P T / Woodworth, B N / Young, C V

    Physical review. E

    2024  Band 109, Heft 2-2, Seite(n) 25203

    Abstract: An indirect-drive inertial fusion experiment on the National Ignition Facility was driven using 2.05 MJ of laser light at a wavelength of 351 nm and produced 3.1±0.16 MJ of total fusion yield, producing a target gain G=1.5±0.1 exceeding unity for the ... ...

    Abstract An indirect-drive inertial fusion experiment on the National Ignition Facility was driven using 2.05 MJ of laser light at a wavelength of 351 nm and produced 3.1±0.16 MJ of total fusion yield, producing a target gain G=1.5±0.1 exceeding unity for the first time in a laboratory experiment [Phys. Rev. E 109, 025204 (2024)10.1103/PhysRevE.109.025204]. Herein we describe the experimental evidence for the increased drive on the capsule using additional laser energy and control over known degradation mechanisms, which are critical to achieving high performance. Improved fuel compression relative to previous megajoule-yield experiments is observed. Novel signatures of the ignition and burn propagation to high yield can now be studied in the laboratory for the first time.
    Sprache Englisch
    Erscheinungsdatum 2024-03-15
    Erscheinungsland United States
    Dokumenttyp Journal Article
    ZDB-ID 2844562-4
    ISSN 2470-0053 ; 2470-0045
    ISSN (online) 2470-0053
    ISSN 2470-0045
    DOI 10.1103/PhysRevE.109.025203
    Datenquelle MEDical Literature Analysis and Retrieval System OnLINE

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  5. Artikel ; Online: Achievement of Target Gain Larger than Unity in an Inertial Fusion Experiment.

    Abu-Shawareb, H / Acree, R / Adams, P / Adams, J / Addis, B / Aden, R / Adrian, P / Afeyan, B B / Aggleton, M / Aghaian, L / Aguirre, A / Aikens, D / Akre, J / Albert, F / Albrecht, M / Albright, B J / Albritton, J / Alcala, J / Alday, C /
    Alessi, D A / Alexander, N / Alfonso, J / Alfonso, N / Alger, E / Ali, S J / Ali, Z A / Allen, A / Alley, W E / Amala, P / Amendt, P A / Amick, P / Ammula, S / Amorin, C / Ampleford, D J / Anderson, R W / Anklam, T / Antipa, N / Appelbe, B / Aracne-Ruddle, C / Araya, E / Archuleta, T N / Arend, M / Arnold, P / Arnold, T / Arsenlis, A / Asay, J / Atherton, L J / Atkinson, D / Atkinson, R / Auerbach, J M / Austin, B / Auyang, L / Awwal, A A S / Aybar, N / Ayers, J / Ayers, S / Ayers, T / Azevedo, S / Bachmann, B / Back, C A / Bae, J / Bailey, D S / Bailey, J / Baisden, T / Baker, K L / Baldis, H / Barber, D / Barberis, M / Barker, D / Barnes, A / Barnes, C W / Barrios, M A / Barty, C / Bass, I / Batha, S H / Baxamusa, S H / Bazan, G / Beagle, J K / Beale, R / Beck, B R / Beck, J B / Bedzyk, M / Beeler, R G / Behrendt, W / Belk, L / Bell, P / Belyaev, M / Benage, J F / Bennett, G / Benedetti, L R / Benedict, L X / Berger, R L / Bernat, T / Bernstein, L A / Berry, B / Bertolini, L / Besenbruch, G / Betcher, J / Bettenhausen, R / Betti, R / Bezzerides, B / Bhandarkar, S D / Bickel, R / Biener, J / Biesiada, T / Bigelow, K / Bigelow-Granillo, J / Bigman, V / Bionta, R M / Birge, N W / Bitter, M / Black, A C / Bleile, R / Bleuel, D L / Bliss, E / Blue, B / Boehly, T / Boehm, K / Boley, C D / Bonanno, R / Bond, E J / Bond, T / Bonino, M J / Borden, M / Bourgade, J-L / Bousquet, J / Bowers, J / Bowers, M / Boyd, R / Boyle, D / Bozek, A / Bradley, D K / Bradley, K S / Bradley, P A / Bradley, L / Brannon, L / Brantley, P S / Braun, D / Braun, T / Brienza-Larsen, K / Briggs, R / Briggs, T M / Britten, J / Brooks, E D / Browning, D / Bruhn, M W / Brunner, T A / Bruns, H / Brunton, G / Bryant, B / Buczek, T / Bude, J / Buitano, L / Burkhart, S / Burmark, J / Burnham, A / Burr, R / Busby, L E / Butlin, B / Cabeltis, R / Cable, M / Cabot, W H / Cagadas, B / Caggiano, J / Cahayag, R / Caldwell, S E / Calkins, S / Callahan, D A / Calleja-Aguirre, J / Camara, L / Camp, D / Campbell, E M / Campbell, J H / Carey, B / Carey, R / Carlisle, K / Carlson, L / Carman, L / Carmichael, J / Carpenter, A / Carr, C / Carrera, J A / Casavant, D / Casey, A / Casey, D T / Castillo, A / Castillo, E / Castor, J I / Castro, C / Caughey, W / Cavitt, R / Celeste, J / Celliers, P M / Cerjan, C / Chandler, G / Chang, B / Chang, C / Chang, J / Chang, L / Chapman, R / Chapman, T D / Chase, L / Chen, H / Chen, K / Chen, L-Y / Cheng, B / Chittenden, J / Choate, C / Chou, J / Chrien, R E / Chrisp, M / Christensen, K / Christensen, M / Christiansen, N S / Christopherson, A R / Chung, M / Church, J A / Clark, A / Clark, D S / Clark, K / Clark, R / Claus, L / Cline, B / Cline, J A / Cobble, J A / Cochrane, K / Cohen, B / Cohen, S / Collette, M R / Collins, G W / Collins, L A / Collins, T J B / Conder, A / Conrad, B / Conyers, M / Cook, A W / Cook, D / Cook, R / Cooley, J C / Cooper, G / Cope, T / Copeland, S R / Coppari, F / Cortez, J / Cox, J / Crandall, D H / Crane, J / Craxton, R S / Cray, M / Crilly, A / Crippen, J W / Cross, D / Cuneo, M / Cuotts, G / Czajka, C E / Czechowicz, D / Daly, T / Danforth, P / Danly, C / Darbee, R / Darlington, B / Datte, P / Dauffy, L / Davalos, G / Davidovits, S / Davis, P / Davis, J / Dawson, S / Day, R D / Day, T H / Dayton, M / Deck, C / Decker, C / Deeney, C / DeFriend, K A / Deis, G / Delamater, N D / Delettrez, J A / Demaret, R / Demos, S / Dempsey, S M / Desjardin, R / Desjardins, T / Desjarlais, M P / Dewald, E L / DeYoreo, J / Diaz, S / Dimonte, G / Dittrich, T R / Divol, L / Dixit, S N / Dixon, J / Do, A / Dodd, E S / Dolan, D / Donovan, A / Donovan, M / Döppner, T / Dorrer, C / Dorsano, N / Douglas, M R / Dow, D / Downie, J / Downing, E / Dozieres, M / Draggoo, V / Drake, D / Drake, R P / Drake, T / Dreifuerst, G / Drury, O / DuBois, D F / DuBois, P F / Dunham, G / Durocher, M / Dylla-Spears, R / Dymoke-Bradshaw, A K L / Dzenitis, B / Ebbers, C / Eckart, M / Eddinger, S / Eder, D / Edgell, D / Edwards, M J / Efthimion, P 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/ Gaffney, J / Gales, S / Le Galloudec, B / Le Galloudec, K K / Gambhir, A / Gao, L / Garbett, W J / Garcia, A / Gates, C / Gaut, E / Gauthier, P / Gavin, Z / Gaylord, J / Geddes, C G R / Geissel, M / Génin, F / Georgeson, J / Geppert-Kleinrath, H / Geppert-Kleinrath, V / Gharibyan, N / Gibson, J / Gibson, C / Giraldez, E / Glebov, V / Glendinning, S G / Glenn, S / Glenzer, S H / Goade, S / Gobby, P L / Goldman, S R / Golick, B / Gomez, M / Goncharov, V / Goodin, D / Grabowski, P / Grafil, E / Graham, P / Grandy, J / Grasz, E / Graziani, F R / Greenman, G / Greenough, J A / Greenwood, A / Gregori, G / Green, T / Griego, J R / Grim, G P / Grondalski, J / Gross, S / Guckian, J / Guler, N / Gunney, B / Guss, G / Haan, S / Hackbarth, J / Hackel, L / Hackel, R / Haefner, C / Hagmann, C / Hahn, K D / Hahn, S / Haid, B J / Haines, B M / Hall, B M / Hall, C / Hall, G N / Hamamoto, M / Hamel, S / Hamilton, C E / Hammel, B A / Hammer, J H / Hampton, G / Hamza, A / Handler, A / Hansen, S / 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    Physical review letters

    2024  Band 132, Heft 6, Seite(n) 65102

    Abstract: On December 5, 2022, an indirect drive fusion implosion on the National Ignition Facility (NIF) achieved a target gain G_{target} of 1.5. This is the first laboratory demonstration of exceeding "scientific breakeven" (or G_{target}>1) where 2.05 MJ of ... ...

    Abstract On December 5, 2022, an indirect drive fusion implosion on the National Ignition Facility (NIF) achieved a target gain G_{target} of 1.5. This is the first laboratory demonstration of exceeding "scientific breakeven" (or G_{target}>1) where 2.05 MJ of 351 nm laser light produced 3.1 MJ of total fusion yield, a result which significantly exceeds the Lawson criterion for fusion ignition as reported in a previous NIF implosion [H. Abu-Shawareb et al. (Indirect Drive ICF Collaboration), Phys. Rev. Lett. 129, 075001 (2022)PRLTAO0031-900710.1103/PhysRevLett.129.075001]. This achievement is the culmination of more than five decades of research and gives proof that laboratory fusion, based on fundamental physics principles, is possible. This Letter reports on the target, laser, design, and experimental advancements that led to this result.
    Sprache Englisch
    Erscheinungsdatum 2024-02-23
    Erscheinungsland United States
    Dokumenttyp Journal Article
    ZDB-ID 208853-8
    ISSN 1079-7114 ; 0031-9007
    ISSN (online) 1079-7114
    ISSN 0031-9007
    DOI 10.1103/PhysRevLett.132.065102
    Datenquelle MEDical Literature Analysis and Retrieval System OnLINE

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