Thermal Characteristics of Foils for an Imaging Bolometer
スポンサーリンク
概要
- 論文の詳細を見る
The IR imaging video bolometer is an imaging bolometer which provides the intensity and distribution of plasma radiation. The sensitivity of the IR imaging bolometer is dependent on the properties of the bolometer foil. An evaluation of the thermal characteristics of various materials and thicknesses of the bolometer foil provides information on the sensitivity which is useful to choose the best foil material. We irradiated foils of various materials and thicknesses with a He-Ne laser (wavelength 633 nm), and measured the change in temperature distribution with an IR camera. As for foil materials, W, Ta, Au and Pt were employed. The foils were blackened either on both sides or on one side by graphite. For the same material foil, the temperature rise in the single-side blackened foil was always greater than the double-side blackened foil. For the double blacken foil, Ta had the largest temperature rise among foils with the same thickness. Pt had the shortest time constant for the temperature rise/decayamong foils except Au. In consideration of the attenuation thickness versus photon energy of each material, the Pt foil was the most suitable for the bolometer among the evaluated materials.
著者
-
PETERSON Byron
National Insitute for Fusion Science
-
PETERSON Byron
National Institute for Fusion Science, 322-6 Oroshi-cho, Toki 509-5292, Japan
-
YAMAUCHI Yuji
Hokkaido University, Kita-8, Nishi-5, Kita-ku, Sapporo 060-0808, Japan
-
SANO Ryuichi
Hokkaido University, Kita-8, Nishi-5, Kita-ku, Sapporo 060-0808, Japan
-
DRAPIKO Evgeny
National Institute for Fusion Science, 322-6 Oroshi-cho, Toki 509-5292, Japan
-
WATANABE Yuto
Tsuyama National College of Technology, 624-1 Numa, Tsuyama 708-8509, Japan
-
HINO Tomoaki
Hokkaido University, Kita-8, Nishi-5, Kita-ku, Sapporo 060-0808, Japan
-
SANO Ryuichi
Hokkaido University
-
YAMAUCHI Yuji
Hokkaido University
-
HINO Tomoaki
Hokkaido University
-
DRAPIKO Evgeny
National Institute for Fusion Science
関連論文
- Electron Pressure Profiles in High-Density Neutral Beam Heated Plasmas in the Large Helical Device
- Increase of Central Ion Temperature after Carbon Pellet Injection in Ne-Seeded NBI Discharges of LHD
- Achievement of 10 keV Central Electron Temperatures by ECH in LHD
- Sustained Detachment with the Self-Regulated Plasma Edge beneath the Last Closed Flux Surface in LHD
- Local Impurity Deposition in a Magnetic Island by Means of a Tracer-Encapsulated Solid Pellet in the LHD
- Extension of Improved Particle and Energy Confinement Regime in the Core of LHD Plasma
- Observation of a Rotating Radiation Belt in LHD
- 25pB10p Bolometric Measurements of NBI Heated Plasmas in LHD using Resistive Metal Film Bolometers(ヘリカル/プラズマ応用)
- Comparison of Au and Pt Foils for an Imaging Bolometer
- Upgrade of Imaging Bolometers on LHD
- 29pB13P Impurity Transport Induced Oscillations in LHD
- Fast XUV 16 × 16 Array Hybrid Module for Plasma Imaging Applications
- Thermal Characteristics of Foils for an Imaging Bolometer
- Spatial Variation of the Foil Parameters from in Situ Calibration of the JT-60U Imaging Bolometer Foil
- Study on the Leakage Fields Prediction of a Static Ferromagnetic Shield in Consideration of Hysteresis and Residual Strain of Shielding Materials
- Toroidal Distributions of Amounts of Retained Gases and Deposited Impurities during 13th Experimental Campaign in the LHD
- Deuterium Retention in Graphite and its Removal by Inert Gas Glow Discharge
- Density Regimes of Complete Detachment and Serpens Mode in LHD
- Infrared Imaging Video Bolometer with a Double Layer Absorbing Foil
- Multi-Functional Diagnostic Method with Tracer-Encapsulated Pellet Injection
- Characteristics of Radiating Collapse at the Density Limit in the Large Helical Device
- Determination of the Major Impurity Radiators in the Reheat Mode Discharges in the Compact Helical System
- Foil Calibration for IR Imaging Bolometer by Laser Irradiation