Abstract: A microscanning system including a microscope, a relay lens device, a stepping motor and a hyper-spectrometer is disclosed. The microscope is adapted to acquire and enlarge an image of an object to generate an enlarged image which is a 2D image distributed along the first direction and second direction. The relay lenses device disposed behind the microscope receives and transfers the enlarged image outputted by the microscope. The stepping motor electrically connected to the relay lens device reciprocates the relay lens linearly in the first direction device in a stepwise manner along the second direction. The hyper-spectrometer disposed behind the rely lens device receives the partial enlarged images of the object along the first direction that are transferred by the relay lens device sequentially along the second direction, and transform the partially enlarged images into the corresponding spectrum information.

Abstract: A portable computer including a display module and an image capture module disposed in the display module is provided. The image capture module includes a first image capture device, a pivot mechanism, and a second image capture device. The first image capture device has a circuit board, a first image sensor disposed on the circuit board, and a first lens, wherein the first image sensor is located on the optical path behind the first lens. In addition, the pivot mechanism is disposed in the display module. The second image capture device is pivotally connected to the pivot mechanism, and the second image capture device is electrically connected to the circuit board. The second image capture device has a second lens and a second image sensor, wherein the second image sensor is located on the optical path behind the second lens.

Abstract: A method of fabricating a porous media is provided. In the method, a metal mesh is provided. The metal mesh includes interlaced metal wires, and first holes are formed among the metal wires. An area of each first hole ranges from 1 ?m2 to 10,000 ?m2, and an area error between the first holes is less than 5%. A metal layer covers the metal wires, so as to form the porous media with second holes. By controlling the thickness of the metal layer, an area of each second hole is reduced to 0.01 ?m2 to 1 ?m2, and an area error between the second holes is less than 5%.

Abstract: The present invention provides a low power consumption desorption apparatus, which utilizes a pair of electrodes coupled to an absorbing material to provide an electric current flowing through the absorbing material so as to desorb the substances absorbed within the absorbing material. By means of the desorption apparatus of the present invention, the absorbing material is able to enhance the desorbing efficiency and reducing power consumption during desorption. The present invention further provides a dehumidifier using the low power consumption desorption apparatus for providing a continuous dry air flow to desorb and regenerate the moisture from the absorbing material so that the dehumidifier is capable of removing moisture in the air repeatedly to reduce the humidity.

Abstract: A microscanning system including a microscope, a relay lens device, a stepping motor and a hyper-spectrometer is disclosed. The microscope is adapted to acquire and enlarge an image of an object to generate an enlarged image which is a 2D image distributed along the first direction and second direction. The relay lenses device disposed behind the microscope receives and transfers the enlarged image outputted by the microscope. The stepping motor electrically connected to the relay lens device reciprocates the relay lens linearly in the first direction device in a stepwise manner along the second direction. . The hyper-spectrometer disposed behind the rely lens device receives the partial enlarged images of the object along the first direction that are transferred by the relay lens device sequentially along the second direction, and transform the partially enlarged images into the corresponding spectrum information.

Abstract: The apparatus for scanning at least one hyper-spectral image comprises an optical system, the hyper-spectrometer and the relay module. The hyper-spectrometer is disposed apart from the optical system. The optical system can focus an optical image of a target in a focal plane thereof, where the focal plane contains a plurality of row portions of the optical image. The relay module can selectively relay one of the row portions of the optical image to the hyper-spectrometer. Moreover, a method for scanning at least one hyper-spectral image is disclosed in specification.

Abstract: A method and an apparatus for desorption and a dehumidifier are provided in the present invention, in which an electrical potential is applied to electrodes disposed on both ends of an absorbing material so as to desorb the substances absorbed within the absorbing material whereby the absorbing material is capable of being maintained for cycling the absorbing operation. By means of the method and the apparatus of the present invention, the desorbing efficiency can be enhanced and the energy consumption can be reduced during desorption.

Abstract: The present invention provides a low power consumption desorption apparatus, which utilizes a pair of electrodes coupled to an absorbing material to provide an electric current flowing through the absorbing material so as to desorb the substances absorbed within the absorbing material. By means of the desorption apparatus of the present invention, the absorbing material is able to enhance the desorbing efficiency and reducing power consumption during desorption. The present invention further provides a dehumidifier using the low power consumption desorption apparatus for providing a continuous dry air flow to desorb and regenerate the moisture from the absorbing material so that the dehumidifier is capable of removing moisture in the air repeatedly to reduce the humidity.

Abstract: The apparatus for scanning at least one hyper-spectral image comprises an optical system, the hyper-spectrometer and the relay module. The hyper-spectrometer is disposed apart from the optical system. The optical system can focus an optical image of a target in a focal plane thereof, where the focal plane contains a plurality of row portions of the optical image. The relay module can selectively relay one of the row portions of the optical image to the hyper-spectrometer. Moreover, a method for scanning at least one hyper-spectral image is disclosed in specification.

Abstract: The present invention discloses a chromatics-based reading/writing system and method. In the present invention, the chromatics-based reading/writing system comprises: a color dot reading/writing device; a color dot recording medium recording data in the color-dot form; and a computer system coupled to the color dot reading/writing device, coding data into setting values of color dots, controlling the color dot reading/writing device to write data on the color dot recording medium in the form of color dots according to the setting values of color dots, controlling the color dot reading/writing device to read color dots on the color dot recording medium, and decoding the setting values of the color dots into the original data.

Abstract: A plasma reformer includes a first electrode, a second electrode, an insulating member, an atomizing device and a power supply. A discharge gap is defined between the first electrode and the second electrode. The insulating member is arranged between the first electrode and the second electrode to insulating the first electrode and the second electrode, and a vortex gas flow route is formed between the insulating member and the first electrode, the second electrode. The second electrode penetrates the insulating member. The atomizing device is arranged on the first electrode and/or the second electrode. The power supply is connected with the first electrode and the second electrode.

Abstract: A method and an apparatus for desorption and a dehumidifier are provided in the present invention, in which an electrical potential is applied to electrodes disposed on both ends of an absorbing material so as to desorb the substances absorbed within the absorbing material whereby the absorbing material is capable of being maintained for cycling the absorbing operation. By means of the method and the apparatus of the present invention, the desorbing efficiency can be enhanced and the energy consumption can be reduced during desorption.

Abstract: A plasma reformer includes a first electrode, a second electrode, an insulating member, an atomizing device and a power supply. A discharge gap is defined between the first electrode and the second electrode. The insulating member is arranged between the first electrode and the second electrode to insulating the first electrode and the second electrode, and a vortex gas flow route is formed between the insulating member and the first electrode, the second electrode. The second electrode penetrates the insulating member. The atomizing device is arranged on the first electrode and/or the second electrode. The power supply is connected with the first electrode and the second electrode.

Abstract: A portable computer including a display module and an image capture module disposed in the display module is provided. The image capture module includes a first image capture device, a pivot mechanism, and a second image capture device. The first image capture device has a circuit board, a first image sensor disposed on the circuit board, and a first lens, wherein the first image sensor is located on the optical path behind the first lens. In addition, the pivot mechanism is disposed in the display module. The second image capture device is pivotally connected to the pivot mechanism, and the second image capture device is electrically connected to the circuit board. The second image capture device has a second lens and a second image sensor, wherein the second image sensor is located on the optical path behind the second lens.

Abstract: A plasma generating device, has a plurality of cavities shaped like half-ellipsoids, a plasma cavity, and microwave sources. The present invention takes advantage of geometrical properties of the propagation of electromagnetic waves by enclosing an electromagnetic field in the microwave range in overlapping cavities that together are shaped like a plurality of half ellipsoids. Each of the cavities has a first focus and a second focus, with the first foci of the cavities place close to each other. Microwaves entering the cavities at the second foci propagate inside the cavity and are focused at the first foci. The area around the first foci of both half ellipsoids forms a plasma cavity, providing a large volume filled with a microwave field. Thereby an increased volume of an electromagnetic field and thus of a plasma is achieved.

Abstract: The present invention relates to a process of making YAG fluorescence powder which comprises steps of: (a) providing a first solution of anions and a second solution of cations; (b) mixing the first solution of anions and the second solution of cations drop by drop and forming a precipitate; (c) collecting the precipitate and drying it; (d) annealing the precipitate under a pre-determined temperature until powder occurs; (e) sintering the annealed powder with a plasma torch for at least once; and (f) collecting the sintered powder.

Abstract: A toothbrush for bleaching teeth includes a brush face and a self-illumination device. The self-illumination device further includes a power source, a switch, and an illumination element. In the case that the switch is at a close state, the illumination element can generate a ray out through an illumination area on the brush face so as to act with a toothpaste cooperated with the toothbrush for generating a tooth-bleaching result.

Abstract: A microwave plasma processing apparatus is provided, which includes a microwave generator, a plasma promoter, a microwave plasma processing chamber, a vacuum gas-discharging chamber, and a loading elevator, wherein microwave produced from the microwave generator is gradually transformed into a desirable mode through the use of a microwave coupling resonator, and processing gas supplied by a gas supply system is evenly introduced via slantwise gas outlets of an annular gas distribution panel into the microwave processing chamber. The microwave is used to induce the processing gas to form a plasma sphere in the microwave plasma processing chamber; by reducing pressure in the microwave plasma processing chamber via the vacuum gas-discharging chamber, a vapor deposition process can be performed on a sample disposed on a sample holder of the loading elevator.

Abstract: A plasma generating device, has a plurality of cavities shaped like half-ellipsoids, a plasma cavity, and microwave sources. The present invention takes advantage of geometrical properties of the propagation of electromagnetic waves by enclosing an electromagnetic field in the microwave range in overlapping cavities that together are shaped like a plurality of half ellipsoids. Each of the cavities has a first focus and a second focus, with the first foci of the cavities place close to each other. Microwaves entering the cavities at the second foci propagate inside the cavity and are focused at the first foci. The area around the first foci of both half ellipsoids forms a plasma cavity, providing a large volume filled with a microwave field. Thereby an increased volume of an electromagnetic field and thus of a plasma is achieved.

Abstract: A microwave plasma processing apparatus is provided, which includes a microwave generator, a plasma promoter, a microwave plasma processing chamber, a vacuum gas-discharging chamber, and a loading elevator, wherein microwave produced from the microwave generator is gradually transformed into a desirable mode through the use of a microwave coupling resonator, and processing gas supplied by a gas supply system is evenly introduced via slantwise gas outlets of an annular gas distribution panel into the microwave processing chamber. The microwave is used to induce the processing gas to form a plasma sphere in the microwave plasma processing chamber; by reducing pressure in the microwave plasma processing chamber via the vacuum gas-discharging chamber, a vapor deposition process can be performed on a sample disposed on a sample holder of the loading elevator.