Abstract: A measuring apparatus for solar cell is provided, which is configured to measure a solar cell to obtain a characteristic curve thereof. The measuring apparatus includes a signal measurement control circuit and a signal transmitting control circuit. The signal measurement control circuit is configured to output at least one control signal for controlling a resistance circuit thereof to provide a measurement loading. The signal transmitting control circuit includes at least one path separating circuit, each path separating circuit is configured to provide at least two signal transmitting paths with different signal transmitting directions. The signal measurement control circuit outputs the control signal to the resistance circuit by using the signal transmitting control circuit, so that the resistance circuit can be controlled to provide the measurement loading.

Abstract: A tunable terahertz achromatic wave plate including at least three phase retarders and a tuning device is provided. The at least three phase retarders are sequentially arranged along a first direction, and configured to provide an achromatic range in a terahertz band, so as to reduce a chromatic aberration of a terahertz wave through the tunable terahertz achromatic wave plate in the achromatic range. The at least three phase retarders respectively include a liquid crystal cell. The tuning device is configured to tune a liquid crystal orientation angle of the liquid crystal cell, so as to correspondingly change a birefringence of the at least three phase retarders in the terahertz band. The terahertz wave through the tunable terahertz achromatic wave plate has same phase retardation in the achromatic range. The achromatic range in the terahertz band is determined according to the birefringence of the at least three phase retarders.

Abstract: A carrier concentration measuring method and an apparatus thereof including a focuser, a spectrometer and a processor are disclosed. The measuring method includes the following steps. Project a laser beam to an object. Analyze a Raman signal, obtained from a radiation propagating from the object projected by the laser beam, to obtain a measurement result of the object. Analyze the measurement result to obtain an intensity ratio or a Raman shift. Look up a carrier concentration of the object in a database according to the intensity ratio or the Raman shift.

Abstract: The present disclosure provides a magnetic capacitor structure including a first electrode, a second electrode opposite to the first electrode, a dielectric layer disposed between the first electrode and the second electrode, a first magnetic layer disposed between the first electrode and the dielectric layer, a second magnetic layer disposed between the second electrode and the dielectric layer, a first oxide layer disposed between the first electrode and the first magnetic layer, and a second oxide layer disposed between the second magnetic layer and the dielectric layer.

Abstract: A method and a system for inspecting a defect of a solar cell are provided, and the method includes: receiving inspecting data corresponding to the solar cell from an inspecting device; obtaining a current-voltage (I-V) curve of the solar cell according to the inspecting data; defining a first reference region on the I-V curve, and obtaining a plurality of first curve characteristics of the I-V curve in the first reference region; determining a defect type of the solar cell according to the first curve characteristics.

Abstract: The Terahertz Polarizer structure of the present invention comprises of: A pair of parallel quartz layers for forming a rectangular cube with internal space, then a birefringent liquid crystal is placed in the internal space and sealed, and a pair of permanent magnets with reverse polarities are placed at both sides of the pair of fused silica layers.

Abstract: The Terahertz Polarizer structure of the present invention comprises of: A pair of parallel quartz layers for forming a rectangular cube with internal space, then a birefringent liquid crystal is placed in the internal space and sealed, and a pair of permanent magnets with reverse polarities are placed at both sides of the pair of fused silica layers.