Abstract: A recordable optical recording media is provided with an inorganic recording layer prepared by magnetic sputtering. The recording layer is a combination film including a primary component selected from cupper (Cu), silicon (Si), chromium (Cr) or the combination thereof. The purpose of recording data can be achieved by way of altering micro-structure of the recording layer after irradiating the recordable optical recording media by a laser beam.

Abstract: A capacitive touch panel including a transparent substrate, a plurality of first metal wires, an insulation layer, a plurality of first sensing units, a plurality of second sensing units and a plurality of second metal wires are provided. The transparent substrate has a substrate surface on which the first metal wires, the first sensing units and the second sensing units are formed. The insulation layer can cover a portion of each first metal wire, which is connected to two of the first sensing units, wherein each second metal wire is connected to two of the second sensing units.

Abstract: A capacitive touch panel is provided. The capacitive touch panel includes a transparent substrate, a plurality of first sensing wires, a plurality of second sensing units, an insulation layer, a plurality of second sensing wires and a plurality of fourth sensing units. The transparent substrate has a substrate surface on which the insulation layer is disposed. The insulation layer covers the first sensing wires and the second sensing wires. A plurality of third sensing units of the second sensing wires is disposed on the insulation layer along a second axial direction. The fourth sensing units are disposed on the insulation layer along a first axial direction. The third sensing units and the fourth sensing units are adjacently arranged.

Abstract: A capacitive touch panel including a transparent substrate, a plurality of first sensing wires, a plurality of second sensing wires and an insulation layer is provided. The transparent substrate has a substrate surface. The first sensing wires are disposed on the substrate surface along a first axis direction. The second sensing wires include a plurality of bridge wires and a plurality of sensing units. The sensing units are disposed on the substrate surface along the second axis direction. The insulation layer is disposed on the substrate surface, covers the first sensing wires, and has a plurality of through holes. The through holes correspondingly expose the sensing units. Each bridge wire strides the insulation layer to electrically connect two of the sensing units.

Abstract: A method for improving read stability of optical recording medium is disclosed. In the method, the thickness of a recording layer of an optical recording medium is adjusted to control the disc absorptivity, and the recording layer thickness is matched with a power difference between a laser write power (Pw) and a laser erase power (Pe), so as to control the optimal laser power for irradiating and accordingly changing the optical properties of the recording layer. It is found that by using properly increased recording layer thickness corresponding to a given disc absorptivity, and properly matching the recording layer thickness with a properly increased power difference, the read stability and recording characteristics of the optical recording media can be improved without significantly changing the layer structure and writing strategy of the optical recording medium.

Abstract: A recordable optical recording media is provided with an inorganic recording layer prepared by magnetic sputtering. The recording layer is a combination film including a primary component selected from cupper (Cu), silicon (Si), chromium (Cr) or the combination thereof. The purpose of recording data can be achieved by way of altering micro-structure of the recording layer after irradiating the recordable optical recording media by a laser beam.