General Method to Determine the Position-Charge Relationship for Position-Sensitive Detectors with Variously Shaped Resistive Anodes
スポンサーリンク
概要
- 論文の詳細を見る
A new approach using the Green function instead of the method of Fourier expansion is presented to determine the position-charge relationship for radiation detectors employing a charge division on the resistive anode bordered by an additional resistive line. The resistive anode with a polygonal shape is considered as a general case. Theoretical consideration shows that the position of radiation incidence in the position-sensitive detectors is represented in the integral form containing the Green function if the total charge generated in the detector is assumed to be collected over an infinite time. Anodes with the geometries of a triangle, square, circle or spherical triangle are described as practical shapes. It is shown that, when the shape of the anode is (spherical) triangular or square, the relationship between the position and charge is determined by a harmonic function obtained from a simple geometric consideration.
- 社団法人応用物理学会の論文
- 1993-05-15
著者
-
Doke Tadayoshi
Science And Engineering Research Laboratory Waseda University
-
Hasebe N
Faculty Of General Education Ehime University
-
Hasebe Nobuyuki
Faculty Of General Education Ehime University
-
KISO Kazuhiro
Faculty of General Education, Ehime University
-
KANEDA Eiji
Osaka University of Foreign Studies
-
Kiso Kazuhiro
Faculty Of General Education Ehime University
関連論文
- Fundamental Study of Ultrasonic Hydrogen Bubble Chamber by Measurement of Cavitation Threshold
- Signal Observation from a Pulsed Ionization Chamber Filled with Tetramethyl Germanium
- Theoretical Estimation of Energy Resolution in Liquid Argon Sampling Calorimeter
- Energy Loss Straggling of Heavy Charged Particles in Thick Silicon Absorbers
- Straggling in Energy Loss of Energetic Heavy Ions (Z≤8)in Thick Silicon Absorber
- Position Linearity and Resolution of Large Position-Sensitive Silicon Detector with a Highly Uniform Thickness
- Accelerator Beam Experiments of a Prototype Cosmic Ray Heavy Ion Telescope
- Energy Loss and Straggling of High-Energy Electrons in Silicon Detectors
- The Energetic Particle Spectrometer HEP onboard the GEOTAIL Spacecraft
- Mass and Energy Limit of Isotope Identification of Heavy Ions Using ?E-E Silicon-Detector Telescope
- New Formulae for Energy Resolution of Sampling Calorimeter
- Observations of Ultraheavy Cosmic Ray Particles with Z>45 at 10 GV Geomagnetic Cutoff Rigidity
- Charge Waveform of a New Two-Dimensional Position-Sensotive Silicon Detector : Nuclear Science, Plasmas and Electric Discharges
- Energy Losses and Ranges of Low Energy Heavy Charged Particles in Plastic Nuclear Track Detectors
- Design of a Liquid Xenon Calorimeter for the Observation of Cosmic Gamma Ray Lines in the 1 ∼ 100 GeV Region
- Determination of Charge and Energy for Particles Penetrating a Silicon ΔE×E Telescope in Space Radiation
- General Method to Determine the Position-Charge Relationship for Position-Sensitive Detectors with Variously Shaped Resistive Anodes
- The W Values and Fano Factors in Helium and Argon-Doped Helium
- On the Relation between Certain Evolution Equations Defined by Lax Equations