According to one embodiment, a radiation detector includes a metal member, a capacitor, and a first charge-sensitive amplifier. The metal member includes a first portion and a second portion. The capacitor is electrically connected to the second portion. The first charge-sensitive amplifier is electrically connected to the first portion. The first charge-sensitive amplifier outputs a signal corresponding to -rays incident on the metal member.

According to one embodiment, a radiation detector includes a metal member, a capacitor, and a first charge-sensitive amplifier. The metal member includes a first portion and a second portion. The capacitor is electrically connected to the second portion. The first charge-sensitive amplifier is electrically connected to the first portion. The first charge-sensitive amplifier outputs a signal corresponding to -rays incident on the metal member.

According to one embodiment, a radiation detector includes a metal member, a capacitor, and a first charge-sensitive amplifier. The metal member includes a first portion and a second portion. The capacitor is electrically connected to the second portion. The first charge-sensitive amplifier is electrically connected to the first portion. The first charge-sensitive amplifier outputs a signal corresponding to -rays incident on the metal member.

Disclosed herein is a method comprising: moving an image sensor along a first direction among a plurality of positions relative to a scene and capturing partial images of the scene respectively at the plurality of positions; forming an image of the scene from the partial images; wherein the image sensor has an active area and a dead zone; wherein the dead zone extends along a second direction; wherein the second direction is at an angle with the first direction; wherein each point in the scene falls on the dead zone no more than once when the image sensor is at the plurality of positions.

Disclosed herein is a method comprising: moving an image sensor along a first direction among a plurality of positions relative to a scene and capturing partial images of the scene respectively at the plurality of positions; forming an image of the scene from the partial images; wherein the image sensor has an active area and a dead zone; wherein the dead zone extends along a second direction; wherein the second direction is at an angle with the first direction; wherein each point in the scene falls on the dead zone no more than once when the image sensor is at the plurality of positions.

A coincidence technique-based X-ray detection device and composition analysis method are provided, wherein the X-ray detection device includes: a sample holding device; an excitation unit for outputting X-rays with continuously adjustable energy; detectors comprising two SiC semiconductor detectors and two SiPIN semiconductor detectors; a signal processing unit for performing amplification, analog-to-digital conversion and classification on the detected signals to obtain energy information; a data processing device connected to the signal processing unit and used for analysis and calculation according to the energy information and determining element type and content of the sample to be tested, wherein the data processing device comprises a processor and a memory, the processor is used for executing following program modules stored in the memory: a storage module, a baseline recovery module, a calibration curve construction module, an extraction module, an effective energy information determination module, and a peak comparison module.

A coincidence technique-based X-ray detection device and composition analysis method are provided, wherein the X-ray detection device includes: a sample holding device; an excitation unit for outputting X-rays with continuously adjustable energy; detectors comprising two SiC semiconductor detectors and two SiPIN semiconductor detectors; a signal processing unit for performing amplification, analog-to-digital conversion and classification on the detected signals to obtain energy information; a data processing device connected to the signal processing unit and used for analysis and calculation according to the energy information and determining element type and content of the sample to be tested, wherein the data processing device comprises a processor and a memory, the processor is used for executing following program modules stored in the memory: a storage module, a baseline recovery module, a calibration curve construction module, an extraction module, an effective energy information determination module, and a peak comparison module.