Publications of Troy Carter

A list of publications authored or co-authored by Troy Carter, derived from the SAO/NASA Astrophysics Data System (ADS). The number in brackets after each title indicates the number of citations that the paper has received.

Orcid ID: 0000-0002-5741-0495

List of publications ordered by citations
Number of papers: 96 (refereed: 89)
No. of citations: 2314
First author papers: 5 (refereed: 5)

2025

  1. Phase mixing of Alfvén waves in the laboratory under conditions scaled to match coronal holes [0]
    Bose, Sayak, Carter, Troy, Hahn, Michael, Vincena, Steve & Savin, Daniel Wolf, MagNetUS Workshop Abstracts, p. E1
  2. Measurement of Energy Reduction of Inertial Alfvén Waves Propagating through Parallel Gradients in the Alfvén Speed [0]
    Joshi, Garima, Bose, Sayak, Carter, Troy, Savin, Daniel Wolf, Tripathi, Shreekrishna, Vincena, Stephen & Hahn, Michael, ApJ, 982, 52
  3. Wave coupling and propagation from a fast-wave antenna in the lower hybrid range of frequencies [0]
    Larson, Joshua, Van Compernolle, Bart, Pinsker, Robert, Carter, Troy, Ceccherini, Francesco, Galeotti, Laura & Dettrick, Sean, Journal of Plasma Physics, 91, E103
  4. Accelerating the fusion workforce in the USA [2]
    Paz-Soldan, Carlos, Belonohy, Eva, Carter, Troy, Coté, Laleh E., Kostadinova, Evdokiya, Lowe, Calvin, Sharma, Subash L., de Clark, Sybil, Deshpande, Jaydeep, Kelly, Kate, Makani, Bobbi, Schaffner, David A. & Thome, Kathreen E., Plasma Physics and Controlled Fusion, 67, 083701
  5. Physics of beam-driven ion cyclotron emission in the large plasma device [2]
    Samant, O., Dendy, R. O., Chapman, S. C., Tripathi, S. K. P., Carter, T., Van Compernolle, B. & Cook, J. W. S., Nuclear Fusion, 65, 066023
  6. Machine-learned trends in mirror configurations in the large plasma device [0]
    Travis, Phil, Bortnik, Jacob & Carter, Troy, Physics of Plasmas, 32, 082106
  7. Turbulence and transport in mirror geometries in the Large Plasma Device [0]
    Travis, Phil & Carter, Troy, Journal of Plasma Physics, 91, E40

2024

  1. Experimental Study of Alfvén Wave Reflection from an Alfvén-speed Gradient Relevant to the Solar Coronal Holes [5]
    Bose, Sayak, TenBarge, Jason M., Carter, Troy, Hahn, Michael, Ji, Hantao, Juno, James, Savin, Daniel Wolf, Tripathi, Shreekrishna & Vincena, Stephen, ApJ, 971, 72
  2. Understanding the L-H isotope effect at the DIII-D tokamak and advancements in synthetic turbulence diagnostics [3]
    Callahan, K. J., Schmitz, L., Pratt, Q., Carter, T. A., Wang, G., Zhang, H., Holland, C., Haskey, S. R., Angulo, A., Bortolon, A., Effenberg, F., Belli, E. A., Chrystal, C., Thome, K. E., Ashourvan, A., Neiser, T., Knolker, M., Khabanov, F., Yan, Z., McKee, G. R., Chaban, R., Wilcox, R. S., Holm, A., Scotti, F., Truong, D. & Gerrú, R., Nuclear Fusion, 64, 106060
  3. Density wavenumber spectrum measurements, synthetic diagnostic development, and tests of quasilinear turbulence modeling in the core of electron-heated DIII-D H-mode plasmas [6]
    Pratt, Q., Hall-Chen, V., Neiser, T. F., Hong, R., Damba, J., Rhodes, T. L., Thome, K. E., Yang, J., Haskey, S. R., Cote, T. & Carter, T., Nuclear Fusion, 64, 016001
  4. Linear gyrokinetic simulations of toroidal Alfvén eigenmodes in the Mega-Amp Spherical Tokamak [0]
    Wong, H. H., Huang, H., Liu, P., Yu, Y., Wei, X., Brochard, G., Fil, N., Lin, Z., Podesta, M., Bonofiglo, P. J., McClements, K. G., Michael, C. A., Crocker, N. A., Garzotti, L. & Carter, T. A., Physics of Plasmas, 31, 112508

2023

  1. On the origin of the DIII-D L-H power threshold isotope effect [6]
    Callahan, K. J., Schmitz, L., Carter, T. A., Belli, E. A., Chrystal, C., Haskey, S. R., Grierson, B. A., Thome, K. E., Smith, S. P., McKee, G. R., Staebler, G. M., Holland, C., Ashourvan, A. & Yan, Z., Nuclear Fusion, 63, 126009
  2. Wave coupling and propagation from the helicon antenna in LAPD [0]
    Larson, Joshua J., Compernolle, Bart Van, Pinsker, Robert I. & Carter, Troy A., American Institute of Physics Conference Series, American Institute of Physics Conference Series, 2984, p. 070001
  3. Design of the Lanthanum hexaboride based plasma source for the large plasma device at UCLA [8]
    Qian, Yuchen, Gekelman, Walter, Pribyl, Patrick, Sketchley, Tom, Tripathi, Shreekrishna, Lucky, Zoltan, Drandell, Marvin, Vincena, Stephen, Look, Thomas, Travis, Phil, Carter, Troy, Wan, Gary, Cattelan, Mattia, Sabiston, Graeme, Ottaviano, Angelica & Wirz, Richard, Review of Scientific Instruments, 94, 085104
  4. Study of Alfvén wave reflection to address the solar coronal heating problem [0]
    Sayak, Bose, TenBarge, Jason, Carter, Troy, Hahn, Michael, Ji, Hantao, Savin, Daniel Wolf, Tripathi, Shreekrishna & Vincena, Steve, MagNatUS Meeting 2023, p. 1
  5. Dynamic Formation of a Transient Jet from Arched Magnetized Laboratory Plasma [1]
    Sklodowski, Kamil D., Tripathi, Shreekrishna & Carter, Troy, ApJ, 953, 5
  6. Status of high harmonic fast wave experimental campaign on Large Plasma Device [0]
    Yang, X., De Haas, T., Magee, R., Carter, T., Goulding, R., Sibley, A., Song, Y., Schroeder, J., Allfrey, I., Morehouse, M., Feng, P., Pribyl, P., Vincena, S., Lau, C., Bertelli, N., Ono, M. & Shiraiwa, S., American Institute of Physics Conference Series, American Institute of Physics Conference Series, 2984, p. 080002

2022

  1. Reduction in RF sheath rectification with insulating antenna enclosure walls [3]
    Bal, G., Compernolle, B. V., Pribyl, P., Martin, M. J., Larson, J. & Carter, T. A., Nuclear Fusion, 62, 086043
  2. Novel internal measurements of ion cyclotron frequency range fast-ion driven modes [21]
    Crocker, N. A., Tang, S. X., Thome, K. E., Lestz, J. B., Belova, E. V., Zalzali, A., Dendy, R. O., Peebles, W. A., Barada, K. K., Hong, R., Rhodes, T. L., Wang, G., Zeng, L., Carter, T. A., DeGrandchamp, G. H., Heidbrink, W. W. & Pinsker, R. I., Nuclear Fusion, 62, 026023
  3. Impact of the electron density and temperature gradient on drift-wave turbulence in the Large Plasma Device [1]
    Perks, Conor, Mordijck, Saskia, Carter, Troy, Van Compernolle, Bart, Vincena, Stephen, Rossi, Giovanni & Schaffner, David, Journal of Plasma Physics, 88, 905880405
  4. Comparison of Doppler back-scattering and charge exchange measurements of E × B plasma rotation in the DIII-D tokamak under varying torque conditions [15]
    Pratt, Q., Rhodes, T., Chrystal, C. & Carter, T., Plasma Physics and Controlled Fusion, 64, 095017

2021

  1. Electromagnetic turbulence in increased β plasmas in the Large Plasma Device [1]
    Rossi, G. D., Carter, T. A., Seo, B., Robertson, J., Pueschel, M. J. & Terry, P. W., Journal of Plasma Physics, 87, 905870401
  2. Laboratory measurements of the physics of auroral electron acceleration by Alfvén waves [25]
    Schroeder, J. W. R., Howes, G. G., Kletzing, C. A., Skiff, F., Carter, T. A., Vincena, S. & Dorfman, S., Nature Communications, 12, 3103
  3. Evolution of an arched magnetized laboratory plasma in a sheared magnetic field [3]
    Sklodowski, Kamil D., Tripathi, Shreekrishna & Carter, Troy, Journal of Plasma Physics, 87, 905870616
  4. Stabilization of Alfvén Eigenmodes in DIII-D via Controlled Energetic Ion Density Ramp and Validation of Theory and Simulations [24]
    Tang, S. X., Carter, T. A., Crocker, N. A., Heidbrink, W. W., Lestz, J. B., Pinsker, R. I., Thome, K. E., Van Zeeland, M. A. & Belova, E. V., Physical Review Letters, 126, 155001

2020

  1. Interaction of magnetic islands with turbulent electron temperature fluctuations in DIII-D and in GENE nonlinear gyrokinetic simulations [8]
    Bardóczi, L., Sung, C., Navarro, A. Bañón, Rhodes, T. L., Carter, T. A. & Jenko, F., Plasma Physics and Controlled Fusion, 62, 025020
  2. Understanding the role of Alfvén waves in heating solar coronal holes through laboratory experiments [0]
    Bose, Sayak, Carter, Troy, Hahn, M., Tripathi, S., Vincena, S. & Savin, Daniel, Division of Plasma Physics, p. 1
  3. Electron density measurement using a partially covered hairpin resonator in an inductively coupled plasma [2]
    Fan, Xingchen, Wug, Yhoshua, Han, Jia, Pribyl, Patrick & Carter, Troy, Review of Scientific Instruments, 91, 113502
  4. Propagation of shear Alfvén waves in a two-ion plasma and application as a diagnostic for the ion density ratio [1]
    Robertson, J., Carter, T. A. & Vincena, S., Journal of Plasma Physics, 86, 905860613
  5. Overview of TAE technologies' HHFW project on LAPD [2]
    Yang, X., Binderbauer, M., Song, Y., Carter, T., Goulding, R., Yang, Q., Chen, G., Song, Y., Schroeder, J., DeHaas, T., Compernolle, B. Van, Ceccherini, F., Galeotti, L., Allfrey, I., Dettrick, S., Sibley, A., Feng, P., Valentine, T., Waggoner, W., Lau, C., Shiraiwa, S., Wright, J., Bertelli, N., Ono, M. & Horton, W., American Institute of Physics Conference Series, American Institute of Physics Conference Series, 2254, p. 070002

2019

  1. Measured Reduction in Alfvén Wave Energy Propagating through Longitudinal Gradients Scaled to Match Solar Coronal Holes [9]
    Bose, Sayak, Carter, Troy, Hahn, Michael, Tripathi, Shreekrishna, Vincena, Stephen & Savin, Daniel Wolf, ApJ, 882, 183
  2. Gyrokinetic GENE simulations of DIII-D near-edge L-mode plasmas [14]
    Neiser, T. F., Jenko, F., Carter, T. A., Schmitz, L., Told, D., Merlo, G., Bañón Navarro, A., Crandall, P. C., McKee, G. R. & Yan, Z., Physics of Plasmas, 26, 092510

2018

  1. Electron Density Measurement with Hairpin Resonator in Low Pressure Plasma [0]
    Fan, Xingchen, Pribyl, Patrick & Carter, Troy, arXiv:1812.11457

2017

  1. Impact of neoclassical tearing mode-turbulence multi-scale interaction in global confinement degradation and magnetic island stability [30]
    Bardóczi, L., Carter, T. A., La Haye, R. J., Rhodes, T. L. & McKee, G. R., Physics of Plasmas, 24, 122503
  2. Shrinking of core neoclassical tearing mode magnetic islands due to edge localized modes and the role of ion-scale turbulence in island recovery in DIII-D [22]
    Bardóczi, L., Rhodes, T. L., Carter, T. A., La Haye, R. J., Bañón Navarro, A. & McKee, G. R., Physics of Plasmas, 24, 062503
  3. Multi-field/-scale interactions of turbulence with neoclassical tearing mode magnetic islands in the DIII-D tokamak [54]
    Bardóczi, L., Rhodes, T. L., Bañón Navarro, A., Sung, C., Carter, T. A., La Haye, R. J., McKee, G. R., Petty, C. C., Chrystal, C. & Jenko, F., Physics of Plasmas, 24, 056106
  4. Effect of magnetic islands on profiles, flows, turbulence and transport in nonlinear gyrokinetic simulations [53]
    Bañón Navarro, A., Bardóczi, L., Carter, T. A., Jenko, F. & Rhodes, T. L., Plasma Physics and Controlled Fusion, 59, 034004
  5. Experimental Observation of Convective Cell Formation due to a Fast Wave Antenna in the Large Plasma Device [23]
    Martin, M. J., Gekelman, W., Van Compernolle, B., Pribyl, P. & Carter, T., Physical Review Letters, 119, 205002
  6. A basic plasma test for gyrokinetics: GDC turbulence in LAPD [12]
    Pueschel, M. J., Rossi, G., Told, D., Terry, P. W., Jenko, F. & Carter, T. A., Plasma Physics and Controlled Fusion, 59, 024006
  7. Linear theory and measurements of electron oscillations in an inertial Alfvén wave [9]
    Schroeder, J. W. R., Skiff, F., Howes, G. G., Kletzing, C. A., Carter, T. A. & Dorfman, S., Physics of Plasmas, 24, 032902
  8. Chaotic edge density fluctuations in the Alcator C-Mod tokamak [12]
    Zhu, Z., White, A. E., Carter, T. A., Baek, S. G. & Terry, J. L., Physics of Plasmas, 24, 042301

2016

  1. Modulation of Core Turbulent Density Fluctuations by Large-Scale Neoclassical Tearing Mode Islands in the DIII-D Tokamak [80]
    Bardóczi, L., Rhodes, T. L., Carter, T. A., Bañón Navarro, A., Peebles, W. A., Jenko, F. & McKee, G., Physical Review Letters, 116, 215001
  2. Non-perturbative measurement of cross-field thermal diffusivity reduction at the O-point of 2/1 neoclassical tearing mode islands in the DIII-D tokamak [60]
    Bardóczi, L., Rhodes, T. L., Carter, T. A., Crocker, N. A., Peebles, W. A. & Grierson, B. A., Physics of Plasmas, 23, 052507
  3. Observation of an Alfvén Wave Parametric Instability in a Laboratory Plasma [30]
    Dorfman, S. & Carter, T. A., Physical Review Letters, 116, 195002
  4. Measurements of the nonlinear beat wave produced by the interaction of counterpropagating Alfvén waves [8]
    Drake, D. J., Howes, G. G., Rhudy, J. D., Terry, S. K., Carter, T. A., Kletzing, C. A., Schroeder, J. W. R. & Skiff, F., Physics of Plasmas, 23, 022305
  5. The upgraded Large Plasma Device, a machine for studying frontier basic plasma physics [119]
    Gekelman, W., Pribyl, P., Lucky, Z., Drandell, M., Leneman, D., Maggs, J., Vincena, S., Van Compernolle, B., Tripathi, S. K. P., Morales, G., Carter, T. A., Wang, Y. & DeHaas, T., Review of Scientific Instruments, 87, 025105
  6. Direct measurement of electron sloshing of an inertial Alfvén wave [9]
    Schroeder, J. W. R., Skiff, F., Kletzing, C. A., Howes, G. G., Carter, T. A. & Dorfman, S., Geophysical Research Letters, 43, 4701

2015

  1. Non-linear Alfvén wave interaction leading to resonant excitation of an acoustic mode in the laboratorya) [5]
    Dorfman, S. & Carter, T. A., Physics of Plasmas, 22, 055706
  2. A non-modal analytical method to predict turbulent properties applied to the Hasegawa-Wakatani model [9]
    Friedman, B. & Carter, T. A., Physics of Plasmas, 22, 012307

2012

  1. Energy dynamics in a simulation of LAPD turbulence [24]
    Friedman, B., Carter, T. A., Umansky, M. V., Schaffner, D. & Dudson, B., Physics of Plasmas, 19, 102307
  2. Grid Convergence Study in a Simulation of LAPD Turbulence [2]
    Friedman, B., Umansky, M. V. & Carter, T. A., Contributions to Plasma Physics, 52, 412
  3. Experimental investigation of geodesic acoustic mode spatial structure, intermittency, and interaction with turbulence in the DIII-D tokamak [67]
    Hillesheim, J. C., Peebles, W. A., Carter, T. A., Schmitz, L. & Rhodes, T. L., Physics of Plasmas, 19, 022301
  4. Role of Nonlinear Coupling and Density Fluctuations in Magnetic-Fluctuation-Induced Particle Transport [8]
    Lin, L., Ding, W. X., Brower, D. L., Bergerson, W. F., Carter, T. A., Yates, T. F., Almagri, A. F., Chapman, B. E. & Sarff, J. S., Physical Review Letters, 108, 175001
  5. Modification of Turbulent Transport with Continuous Variation of Flow Shear in the Large Plasma Device [49]
    Schaffner, D. A., Carter, T. A., Rossi, G. D., Guice, D. S., Maggs, J. E., Vincena, S. & Friedman, B., Physical Review Letters, 109, 135002
  6. Sheared-flow induced confinement transition in a linear magnetized plasma [13]
    Zhou, S., Heidbrink, W. W., Boehmer, H., McWilliams, R., Carter, T. A., Vincena, S., Friedman, B. & Schaffner, D., Physics of Plasmas, 19, 012116
  7. Thermal plasma and fast ion transport in electrostatic turbulence in the large plasma devicea) [3]
    Zhou, Shu, Heidbrink, W. W., Boehmer, H., McWilliams, R., Carter, T. A., Vincena, S., Tripathi, S. K. P. & Van Compernolle, B., Physics of Plasmas, 19, 055904

2011

  1. Resonant drive and nonlinear suppression of gradient-driven instabilities via interaction with shear Alfvén wavesa) [7]
    Auerbach, D. W., Carter, T. A., Vincena, S. & Popovich, P., Physics of Plasmas, 18, 055708
  2. The many faces of shear Alfvén wavesa) [59]
    Gekelman, W., Vincena, S., Van Compernolle, B., Morales, G. J., Maggs, J. E., Pribyl, P. & Carter, T. A., Physics of Plasmas, 18, 055501
  3. Numerical simulation and analysis of plasma turbulence the Large Plasma Devicea) [20]
    Umansky, M. V., Popovich, P., Carter, T. A., Friedman, B. & Nevins, W. M., Physics of Plasmas, 18, 055709
  4. Dependence of fast-ion transport on the nature of the turbulence in the Large Plasma Device [16]
    Zhou, Shu, Heidbrink, W. W., Boehmer, H., McWilliams, R., Carter, T. A., Vincena, S. & Tripathi, S. K. P., Physics of Plasmas, 18, 082104

2010

  1. Control of Gradient-Driven Instabilities Using Shear Alfvén Beat Waves [13]
    Auerbach, D. W., Carter, T. A., Vincena, S. & Popovich, P., Physical Review Letters, 105, 135005
  2. New plasma measurements with a multichannel millimeter-wave fluctuation diagnostic system in the DIII-D tokamak (invited)a) [45]
    Hillesheim, J. C., Peebles, W. A., Rhodes, T. L., Schmitz, L., White, A. E. & Carter, T. A., Review of Scientific Instruments, 81, 10D907
  3. Analysis of plasma instabilities and verification of the BOUT code for the Large Plasma Device [33]
    Popovich, P., Umansky, M. V., Carter, T. A. & Friedman, B., Physics of Plasmas, 17, 102107
  4. Measurements of the cross-phase angle between density and electron temperature fluctuations and comparison with gyrokinetic simulationsa) [84]
    White, A. E., Peebles, W. A., Rhodes, T. L., Holland, C. H., Wang, G., Schmitz, L., Carter, T. A., Hillesheim, J. C., Doyle, E. J., Zeng, L., McKee, G. R., Staebler, G. M., Waltz, R. E., DeBoo, J. C., Petty, C. C. & Burrell, K. H., Physics of Plasmas, 17, 056103
  5. Simultaneous measurement of core electron temperature and density fluctuations during electron cyclotron heating on DIII-D [28]
    White, A. E., Schmitz, L., Peebles, W. A., Rhodes, T. L., Carter, T. A., McKee, G. R., Shafer, M. W., Staebler, G. M., Burrell, K. H., DeBoo, J. C. & Prater, R., Physics of Plasmas, 17, 020701
  6. Interaction between Faraday rotation and Cotton-Mouton effects in polarimetry modeling for NSTXa) [8]
    Zhang, J., Crocker, N. A., Carter, T. A., Kubota, S. & Peebles, W. A., Review of Scientific Instruments, 81, 10D519
  7. Turbulent transport of fast ions in the Large Plasma Device [22]
    Zhou, Shu, Heidbrink, W. W., Boehmer, H., McWilliams, R., Carter, T., Vincena, S., Tripathi, S. K. P., Popovich, P., Friedman, B. & Jenko, F., Physics of Plasmas, 17, 092103

2009

  1. Modifications of turbulence and turbulent transport associated with a bias-induced confinement transition in the Large Plasma Device [83]
    Carter, T. A. & Maggs, J. E., Physics of Plasmas, 16, 012304
  2. A multichannel, frequency-modulated, tunable Doppler backscattering and reflectometry system [87]
    Hillesheim, J. C., Peebles, W. A., Rhodes, T. L., Schmitz, L., Carter, T. A., Gourdain, P.-A. & Wang, G., Review of Scientific Instruments, 80, 083507-083507-8
  3. On generation of Alfvénic-like fluctuations by drift wave-zonal flow system in large plasma device experiments [5]
    Horton, W., Correa, C., Chagelishvili, G. D., Avsarkisov, V. S., Lominadze, J. G., Perez, J. C., Kim, J.-H. & Carter, T. A., Physics of Plasmas, 16, 092102
  4. Observation of reduced core electron temperature fluctuations and intermediate wavenumber density fluctuations in H-mode plasmas [10]
    Schmitz, L., White, A. E., Wang, G., DeBoo, J. C., de Grassie, J. S., McKee, G. R., Hillesheim, J. C., Peebles, W. A., Rhodes, T. L., Carter, T. A., Doyle, E. D., Zeng, L., Burrell, K. H., Petty, C. C., Kinsey, J., Solomon, W. A., Staebler, G. M. & DIII-D Team, Nuclear Fusion, 49, 095004
  5. Structures generated in a temperature filament due to drift-wave convection [7]
    Shi, M., Pace, D. C., Morales, G. J., Maggs, J. E. & Carter, T. A., Physics of Plasmas, 16, 062306
  6. Doppler-shifted cyclotron resonance of fast ions with circularly polarized shear Alfvén wavesa) [8]
    Zhang, Yang, Heidbrink, W. W., Zhou, Shu, Boehmer, H., McWilliams, R., Carter, T. A., Vincena, S. & Lilley, M. K., Physics of Plasmas, 16, 055706

2008

  1. Comment on ``An alternative analysis of some recent diffusion experiments on the large plasma device'' [Phys. Plasmas 15, 022507 (2008)] [6]
    Maggs, J. E. & Carter, T. A., Physics of Plasmas, 15, 074701
  2. Spontaneous Thermal Waves in a Magnetized Plasma [13]
    Pace, D. C., Shi, M., Maggs, J. E., Morales, G. J. & Carter, T. A., Physical Review Letters, 101, 035003
  3. Exponential frequency spectrum and Lorentzian pulses in magnetized plasmas [46]
    Pace, D. C., Shi, M., Maggs, J. E., Morales, G. J. & Carter, T. A., Physics of Plasmas, 15, 122304
  4. Exponential Frequency Spectrum in Magnetized Plasmas [26]
    Pace, D. C., Shi, M., Maggs, J. E., Morales, G. J. & Carter, T. A., Physical Review Letters, 101, 085001
  5. Detection of zonal flow spectra in DIII-D by a dual-channel Doppler backscattering systema) [38]
    Schmitz, L., Wang, G., Hillesheim, J. C., Rhodes, T. L., Peebles, W. A., White, A. E., Zeng, L., Carter, T. A. & Solomon, W., Review of Scientific Instruments, 79, 10F113
  6. Observation of Reduced Electron-Temperature Fluctuations in the Core of H-Mode Plasmas [20]
    Schmitz, L., White, A. E., Carter, T. A., Peebles, W. A., Rhodes, T. L., Burrell, K. H., Solomon, W. & Staebler, G. M., Physical Review Letters, 100, 035002
  7. A correlation electron cyclotron emission diagnostic and the importance of multifield fluctuation measurements for testing nonlinear gyrokinetic turbulence simulationsa) [52]
    White, A. E., Schmitz, L., Peebles, W. A., Carter, T. A., Rhodes, T. L., Doyle, E. J., Gourdain, P. A., Hillesheim, J. C., Wang, G., Holland, C., Tynan, G. R., Austin, M. E., McKee, G. R., Shafer, M. W., Burrell, K. H., Candy, J., DeBoo, J. C., Prater, R., Staebler, G. M., Waltz, R. E. & Makowski, M. A., Review of Scientific Instruments, 79, 103505-103505-8
  8. Measurements of core electron temperature and density fluctuations in DIII-D and comparison to nonlinear gyrokinetic simulationsa) [116]
    White, A. E., Schmitz, L., McKee, G. R., Holland, C., Peebles, W. A., Carter, T. A., Shafer, M. W., Austin, M. E., Burrell, K. H., Candy, J., DeBoo, J. C., Doyle, E. J., Makowski, M. A., Prater, R., Rhodes, T. L., Staebler, G. M., Tynan, G. R., Waltz, R. E. & Wang, G., Physics of Plasmas, 15, 056116
  9. Simultaneous density and magnetic field fluctuation measurements by far-infrared interferometry and polarimetry in MSTa) [3]
    Yates, T. F., Ding, W. X., Carter, T. A. & Brower, D. L., Review of Scientific Instruments, 79, 10E714
  10. Observation of fast-ion Doppler-shifted cyclotron resonance with shear Alfvén waves [11]
    Zhang, Yang, Heidbrink, W. W., Boehmer, H., McWilliams, R., Vincena, S., Carter, T. A., Gekelman, W., Leneman, D. & Pribyl, P., Physics of Plasmas, 15, 102112
  11. Spectral gap of shear Alfvén waves in a periodic array of magnetic mirrors [33]
    Zhang, Yang, Heidbrink, W. W., Boehmer, H., McWilliams, R., Chen, Guangye, Breizman, B. N., Vincena, S., Carter, T., Leneman, D., Gekelman, W., Pribyl, P. & Brugman, B., Physics of Plasmas, 15, 012103

2007

  1. Transition from Bohm to classical diffusion due to edge rotation of a cylindrical plasma [54]
    Maggs, J. E., Carter, T. A. & Taylor, R. J., Physics of Plasmas, 14, 052507

2006

  1. Laboratory Observation of a Nonlinear Interaction between Shear Alfvén Waves [38]
    Carter, T. A., Brugman, B., Pribyl, P. & Lybarger, W., Physical Review Letters, 96, 155001
  2. Intermittent turbulence and turbulent structures in a linear magnetized plasma [154]
    Carter, T. A., Physics of Plasmas, 13, 010701
  3. Study of strong cross-field sheared flow with the vorticity probe in the Large Plasma Devicea) [19]
    Perez, Jean C., Horton, W., Bengtson, Roger D. & Carter, Troy, Physics of Plasmas, 13, 055701
  4. Bispectral analysis of low- to high-confinement mode transitions in the National Spherical Torus Experiment [22]
    White, A. E., Zweben, S. J., Burin, M. J., Carter, T. A., Hahm, T. S., Krommes, J. A. & Maqueda, R. J., Physics of Plasmas, 13, 072301

2005

  1. Vorticity probes and the characterization of vortices in the Kelvin-Helmholtz instability in the large plasma device experiment [37]
    Horton, W., Perez, Jean C., Carter, Troy & Bengtson, Roger, Physics of Plasmas, 12, 022303
  2. An Alfvén wave maser in the laboratory [9]
    Maggs, J. E., Morales, G. J. & Carter, T. A., Physics of Plasmas, 12, 013103
  3. Particle pinch mitigated by radial currents in the electric tokamak [8]
    Taylor, R. J., Carter, T. A., Gauvreau, J.-L., Gourdain, P.-A., Grossman, A., La Fonteese, D. J., Pace, D. C., Schmitz, L. W., White, A. E. & Yates, T. F., Nuclear Fusion, 45, 1634
  4. Generation of Alfvén waves by high power pulse at the electron plasma frequency [7]
    Van Compernolle, B., Gekelman, W., Pribyl, P. & Carter, T. A., Geophysical Research Letters, 32, L08101

2003

  1. Measurement of the transverse Spitzer resistivity during collisional magnetic reconnection [50]
    Trintchouk, F., Yamada, M., Ji, H., Kulsrud, R. M. & Carter, T. A., Physics of Plasmas, 10, 319

2002

  1. Experimental study of lower-hybrid drift turbulence in a reconnecting current sheet [50]
    Carter, T. A., Yamada, M., Ji, H., Kulsrud, R. M. & Trintchouk, F., Physics of Plasmas, 9, 3272

2001

  1. Measurement of Lower-Hybrid Drift Turbulence in a Reconnecting Current Sheet [104]
    Carter, T. A., Ji, H., Trintchouk, F., Yamada, M. & Kulsrud, R. M., Physical Review Letters, 88, 015001

Created on Wed Apr 8 04:35:18 2026.