Media storage

Gellman A J 1998 Lubricants and overcoats for magnetic storage media Curr. Opinion Colloid Interfaoe Soi.Z 368-72... 

Optical storage disks Optical storage media Optical switches Optical trapping Optical tweezers Optical wave guides... 

Storage disorders Storage hardening Storage media Storage stability Storage tankage... 

Binary mixtures of pentaerythritol with many other polyol species can produce heat or electrical storage media having excellent retention properties... 

Polymers are only marginally important in main memories of semiconductor technology, except for polymeric resist films used for chip production. For optical mass memories, however, they are important or even indispensable, being used as substrate material (in WORM, EOD) or for both substrate material and the memory layer (in CD-ROM). Peripheral uses of polymers in the manufacturing process of optical storage media are, eg, as binder for dye-in-polymer layers or as surfacing layers, protective overcoatings, uv-resist films, photopolymerization lacquers for repHcation, etc. 

In general, the commercially used optical data storage media deposit the information on disks or cards (two-dimensional data deposition. Table 1). Data storage systems, which store data in three and more dimensions are being developed. 

Not in the class of digital recording storage media are video CDs with diameters of 200 and 300 mm, respectively. These are storage disks for recording the analogue signal of videos and are of air-sandwich constmction with two poly(methyl methacrylate) disks. 

Copolymers nd Blends of PC. Numerous co- and terpolymers as well as polymer blends of BPA-PC have been developed and their suitabihty as substrate materials for optical data storage media has been tested (Table 8) (195). From these products, three lines of development have been chosen for closer examination. 

Magnetooptic Materials. The appHcation of magnetooptic effects to optical memory systems, such as for laser beam writing and magnetooptic read, has been the subject of much research. Magnetooptic storage media offer the potential of storing over 120 Mbit/cm of information without contact of the read/write head which would thus be very competitive to floppy disks and tape. 

The properties of calcium chloride and its hydrates are summarized in Table 1. Accurate data are now available for the heats of fusion of the hexahydrate, the incongment fusion of the tetrahydrate, and the molar heat capacities of the hexahydrate, tetrahydrate, and dihydrate (1). These data are important when considering the calcium chloride hydrates as thermal storage media. A reevaluation and extension of the phase relationships of the calcium chloride hydrates, has led to new values for the heats of infinite dilution for the dihydrate, monohydrate, 0.33-hydrate, and pure calcium chloride (1). 

Personnel are protected in working with tritium primarily by containment of all active material. Containment devices such as process lines and storage media are normally placed in well-ventilated secondary enclosures (hoods or process rooms). The ventilating air is monitored and released through tall stacks environmental tritium is limited to safe levels by atmospheric dilution of the stack effluent. Tritium can be efficiently removed from air streams by catalytic oxidation followed by water adsorption on a microporous soHd absorbent (80) (see Absorption). 

In summary, the forte of SNMS is the measurement of accurate compositional depth profiles with high depth resolution through chemically complex thin-film structures. Current examples of systems amenable to SNMS are complex III-IV laser diode structures, semiconductor device metallizations, and magnetic read-write devices, as well as storage media. 

Langmuir-Blodgett films of iron(III) arachidate have been used as precmsors for the production of ultrathin layers of iron oxide for potential use as magnetic storage media... 

The presence of impurities is an important issue in mobile applications where the hydrogen at least initially will be supplied by the decomposition of hydrocarbons or methanol in on-board reformer systems as long as no appropriate hydrogen storage media are available. In such systems CO is an unavoidable by-product, and since CO binds more strongly to Pt than hydrogen, the low operating temperature... 

From the applied point of view, this reaction can be used to solve some important issues (1) production of organic subproducts (e.g., methanol, carbon monoxide, oxalic acid), which can be used for synthesizing many valuable organic substances (2) manufacture of synthetic fuels or energy-storage media and (3) removal and utilization of carbon dioxide in life-support systems for closed environments of spacecraft or submarines. 

For synthetic fuels or energy-storage media to be produced electrochemically, it is necessary that the carbon dioxide reduction be conducted at potentials only slightly (not more than by 0.2 V) more negative than the corresponding equilibrium potential. To do this requires extensive research aiming at refining the catalysts and the conditions for this process. 

A physical component of IT life cycle management is storage media management. Tapes, disks, and other electronic media degrade over time. Optimally, they are refreshed every 10 years. Ideally, this is part of the SOPs for the data centers and archive facilities. 

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