Four-dimensional (4D) tracking of high-temperature microparticles

被引:3
|
作者
Wang, Zhehui [1 ]
Liu, Q. [1 ]
Waganaar, W. [1 ]
Fontanese, J. [2 ]
James, D. [2 ]
Munsat, T. [2 ]
机构
[1] Los Alamos Natl Lab, Los Alamos, NM 87545 USA
[2] Univ Colorado, Boulder, CO 80309 USA
来源
REVIEW OF SCIENTIFIC INSTRUMENTS | 2016年 / 87卷 / 11期
关键词
D O I
10.1063/1.4955280
中图分类号
TH7 [仪器、仪表];
学科分类号
0804 ; 080401 ; 081102 ;
摘要
High-speed tracking of hot and molten microparticles in motion provides rich information about burning plasmas in magnetic fusion. An exploding-wire apparatus is used to produce moving high-temperature metallic microparticles and to develop four-dimensional (4D) or time-resolved 3D particle tracking techniques. The pinhole camera model and algorithms developed for computer vision are used for scene calibration and 4D reconstructions. 3D positions and velocities are then derived for different microparticles. Velocity resolution approaches 0.1 m/s by using the local constant velocity approximation. Published by AIP Publishing.
引用
收藏
页数:3
相关论文
共 50 条
  • [21] Three/four-dimensional (3D/4D) microscopic imaging and processing in clinical dental research
    Ye, Ping
    Yu, Hong
    Houshmandi, Mojgan
    [J]. BMC ORAL HEALTH, 2016, 16
  • [22] Four-Dimensional (4D) Printing of Dynamic Foods-Definitions, Considerations, and Current Scientific Status
    Fahmy, Ahmed Raouf
    Derossi, Antonio
    Jekle, Mario
    [J]. FOODS, 2023, 12 (18)
  • [23] Behavioral pattern continuity from prenatal to postnatal life - a study by four-dimensional (4D) ultrasonography
    Kurjak, A
    Stanojevic, M
    Andonotopo, W
    Salihagic-Kadic, A
    Carrera, JM
    Azumendi, G
    [J]. JOURNAL OF PERINATAL MEDICINE, 2004, 32 (04) : 346 - 353
  • [24] Four-dimensional (4D) phase velocity optical coherence elastography in heterogeneous materials and biological tissue
    Liu, Hsiao-Chuan
    Kijanka, Piotr
    Urban, Matthew W.
    [J]. BIOMEDICAL OPTICS EXPRESS, 2020, 11 (07): : 3795 - 3817
  • [25] Four-dimensional (4D) quantification of ventilation using dynamic MDCT imaging in a porcine model of ARDS
    Mayer, Johanna Laura
    Heussel, Claus Peter
    Kauczor, Hans -Ulrich
    Markstaller, Klaus
    Puderbach, Michael
    Weinheimer, Oliver
    Boehme, Stefan
    Hartmann, Erik
    Klein, Ulrich
    Schmack, Bastian
    Pahn, Gregor
    Stiller, Wolfram
    [J]. EUROPEAN RESPIRATORY JOURNAL, 2014, 44
  • [26] Audiovisual Biofeedback Significantly Reduces Motion Blurring Artifacts in Four-Dimensional (4D) PET Images
    Yang, J.
    Yamamoto, T.
    Cho, B.
    Seo, Y.
    Keall, P.
    [J]. MEDICAL PHYSICS, 2010, 37 (06)
  • [27] Four-dimensional dose reconstruction system for lung cancer VMAT treatment: a 4D phantom study
    Hashimoto, M.
    Ito, Y.
    Tanaka, Y.
    Nakano, Masahiro
    [J]. INTERNATIONAL JOURNAL OF RADIATION RESEARCH, 2023, 21 (03): : 467 - 474
  • [28] Non-Contrast-Enhanced Four-Dimensional (4D) Intracranial MR Angiography: A Feasibility Study
    Bi, Xiaoming
    Weale, Peter
    Schmitt, Peter
    Zuehlsdorff, Sven
    Jerecic, Renate
    [J]. MAGNETIC RESONANCE IN MEDICINE, 2010, 63 (03) : 835 - 841
  • [29] Four-dimensional tissue deformation reconstruction (4D TDR) validation using a real tissue phantom
    Szegedi, Martin
    Hinkle, Jacob
    Rassiah, Prema
    Sarkar, Vikren
    Wang, Brian
    Joshi, Sarang
    Salter, Bill
    [J]. JOURNAL OF APPLIED CLINICAL MEDICAL PHYSICS, 2013, 14 (01): : 115 - 132
  • [30] Fontan Revision: Presurgical Planning Using Four-Dimensional (4D) Flow and Three-Dimensional (3D) Printing
    Carberry, Thomas
    Murthy, Raghav
    Hsiao, Albert
    Petko, Colin
    Moore, John
    Lamberti, John
    Hegde, Sanjeet
    [J]. WORLD JOURNAL FOR PEDIATRIC AND CONGENITAL HEART SURGERY, 2019, 10 (02) : 245 - 249
12345