Abstract: The specification discloses a fluorescent multi-layer recording medium containing porphyrin and the method for manufacturing it. The porphyrin is used to make the recording layer of the fluorescent multi-layer recording medium. A laser beam with a wavelength smaller than 500 nm is used as the light source. When a short-wavelength laser excites the recording layer containing porphyrin, it instantaneously emits red fluorescent light with a wavelength greater than 600 nm. A device can read data signals by detecting the intensity of such fluorescence.

Abstract: This specification discloses a piezoelectric ultrasonic motor with multi-layer thin disks. A buzzer disk made of a piezoelectric material is supplied with an alternate voltage to produce alternately expanding and shrinking deformation. An elastic vibration disk in connection with the buzzer disk produces standing waves to transport kinetic energy to the exterior. A driving module symmetric in the vertical or horizontal direction is also formed. This does not only reduce the abrasion among the components, but also provide homogeneous forward and reverse driving forces.

Abstract: A double-sided high-density information storage medium uses a laser pickup head with blue light and light of a shorter wavelength to read and save data in order to increase the data storage per unit area on the information storage medium. The invention further uses a double-sided high-density information storage medium and a double-sided recording stack structure to increase the storage capacity, forming a double-sided two-recording-layer and double-sided four-recording-layer information storage media.

Abstract: A high-density information storage medium has a shorter length of information bits and a smaller pitch of track. The storage capacity is increased by shortening the track pitch and data bit length and increasing the storage density. The medium of the invention can be made by current CD manufacturing facilities, and can be read through general DVD devices.

Abstract: The invention discloses new benzoindole styryl compounds and its use for a high-density optical recording medium. The invention uses the dyes of the new benzoindole styryl compounds to form the recording layer of high-density recording media. The new benzoindole styryl compounds are easy to prepare and purify, so they are cheaper when comparing to the compounds generally used in high-density optical recording media. The benzoindole styryl compounds has a maximum absorption for the light wavelength in the range of 500 nanometers to 700 nanometers. The benzoindole styryl compounds also have high sensitivity and chemical stability for light and heat. Using the new benzoindole styryl compounds to form a high-density optical recording medium can match up with the short-wavelength laser beam for high-density optical recording media and have the advantage of a stable quality.

Abstract: The invention discloses new indolestyryl compounds and their uses for a high-density optical recording medium. The invention uses the new indolestyryl compounds to form the recording layer of a high-density recording medium. The new indolestyryl compounds are easy to prepare and purify, so they are cheaper when comparing to the compounds generally used in high-density optical recording media. The indolestyryl compounds have a maximum absorption for light wavelengths in the range of 500 nanometers to 700 nanometers. The indolestyryl compounds also have high sensitivity and chemical stability toward light and heat. Using the new indolestyryl compounds to form high-density optical recording media can match up with the short-wavelength laser beam for high-density optical recording media and have the advantage of a stable quality.

Abstract: An optical head driving mechanism is applied to an optical disc driver that has a base plate, a pair of guide rods and an optical module movably mounted on the guide rods. The driving mechanism includes a base, a movable member, a piezo-actuator and at least a resilient member. The piezo-actuator and the movable member generate proceeding waves at the rim of the piezo-actuator and move the optical module along the guide rods when the piezo-actuator activates.

Abstract: A multi-layer rewriteable information storage medium includes a substrate which is laminated with a plurality of information recording stacks to form a single side double information recording layers and double sides four information recording layers or more to greatly increase storage capacity. When reading or writing signals, laser beams of the optical pick-up head pass through replicated groove/land surfaces for tracking use to reach the information recording stacks. Hence tracking signals do not weaken when the thickness of the information recording stacks changes, and groove/land dimensions also may be maintained unchanged when the thickness of the information recording stacks changes. The laser beams can penetrate the substrate of a thickness from 0.1 mm to 1.2 mm to reach the information recording stacks. The storage medium of the invention can be used on existing optical disk drivers for reading or writing operations without a lot of structural changes.

Abstract: A manufacturing method of a multi-layer optical information record carrier, which has a plurality of layers of reflecting surfaces with pits for recording information. According to the method, a reflective layer is first coated on a stamper with a pit pattern. A radiation-setting adhesive polymer resin is then applied on a substrate with another pit pattern and coated with a partial reflective layer. The substrate and the stamper are combined together and the resin is cured by ultraviolet light. After peeling off the stamper, two reflective layers are formed on the substrate. Finally, two of the substrates are adhered together using polymer resin and one obtains a multi-layer optical information record carrier with dual information layers on both sides.

Abstract: This invention provides a data storage media comprising at least a cyanine-TCNQ complex dye having the structural formula: 1

Abstract: A production method of multi-layer information record carriers that involves forming a signal duplication layer on a substrate that contains signals, then replacing a metallic stamping plate with the substrate that comprises the signal duplication layer for manufacturing a signal layer of high molecular materials. After the signal layer has been subjected to curing by exposure to ultra violet light, the signal layer is separated from the signal duplication layer because of the difference between the adhesive forces of the different materials. Multi-layer information record carriers can be manufactured by repeating the manufacturing process. Since the manufacturing process of the invention is simple and speedy, it facilitates the creation of automated facilities for mass production.

Abstract: This invention is to provide a kind of cyanine-TCNQ complex dyes mixture (II, III, and IV) used as the data storage media having the structural formula (I): 1

Abstract: This invention provides azo-metal complex dyes for a high-density optical disc recording medium having the following formula (I): wherein R1 reprents C1-8 alkoxyl, carboxy, C1-8 alkoxycarbonyl, or amide; R2, R3, R4 and R5 can be the same or not, which are hydrogen, C1-8 alkyl, C1-8 alkoxyl, carboxy, C1-8 alkoxycarbonyl; C1-6 alkylaminealkylenecarboxy, amide, nitro, trifluoro-methyl, sulfonic acid fluoride group, sulfonic acid group or halogen atom; X reprents carbon or nitrogen atom; and M reprents Mg+2, Mn+2, Co+2, Ni+2, Cu+2 or Zn+2, These azo-metal complex dyes whose spectra are capable of matching wavelength of 400 nm˜700 nm visible light can be used as a high-density optical disc recording medium.

Abstract: This invention provides azo-metal complex dyes for a high-density optical disc recording medium having the following formula (I): 1

Abstract: A high-density recordable optical recording disk with a cyanine dye mixture as a recording layer. The cyanine dye mixture at least comprises cyanine dye I and cyanine dye II.

Abstract: A phase transition type recording medium. On a substrate, a lower dielectric layer is formed. An adding dielectric layer having a high reflectivity is formed on the lower dielectric layer. A recording layer is formed on the adding high reflective dielectric layer. An upper dielectric layer is formed on the recording layer. A reflective layer is formed on the upper dielectric layer, and a protecting layer is further formed on the reflective layer.

Abstract: This invention relates to a rewritable optical information recording medium of the phase-change type, which is made of a Te—Ge—Sb—B quaternary alloy. The optical contrast of the recording medium according to the present invention is enhanced over 35% in the visible wavelength range of 350 nm to 800 nm. Hence, the CNR of an optical disk with the recording medium of the present invention is increased, and the recording medium is suitable for optical information record operated in shorter visible wavelength. In addition, since the crystallization of the recording medium according to the present invention is single-phase, the performance of the repeated recording and erasing is enhanced.

Abstract: A cyanine dye for using in optical disc recording medium, having the following structure: ##STR1## wherein R represents 4-methoxycarbonyl benzyl group, X.sup.- represents an acid anion, and n represents am integer of 2 or 3. This cyanine dye is suitable for use as a near infrared light-absorbing organic dye useful as an optical disc recording medium.