Optical Media

Please note that this chapter is in outline form and will be fleshed out later. Use it to guide you through your own research.

LaserDisc

Original optical media

Information recorded as pits of varying lengths

Laser focused on pits. Light reflected back to optical sensor.

CAV

Constant Angular Velocity

Disk spins at constant speed

Each track carries two TV fields (one frame)

Information can be seen by eye

A CAV Laserdisc. You can see the separation between fields as a wedge that looks different from the rest of the disc.

CLV

Constant Linear Velocity

More fields around outer track than inner track

Disc spins slower when reading outer tracks to compensate for extra information

Transitions between fields cannot be seen by eye because they don't line up as they do on CAV discs.

Analog system

Length of pit represents a voltage

Disc sizes

Most discs were 12 inches. 7-inch, 7.9-inch and 4.7-inch were also available.

Gas laser vs LED laser

Early players had a gas (Helium-Neon) laser.

Limited lifespan of HeNe laser limited the life of the player

Later players used LED laser.

Players lasted longer

Typically also played CDs. Later versions played DVDs.

CD-ROM/DVD/Blu-Ray

Spiral track of pits

Long pit = 1

Short pit = 0

Laser focused on pits

Data is on label side covered by lacquer

Multi-layer DVD/Blu-Ray

laser focuses on different layers.

Unfocused layers invisible to system

CD

Made possible by cheap infrared LED lasers

DVD uses same technology as CD with smaller pits

Made possible by cheap red LED lasers

Blu-Ray uses same technology as CD and DVD, with smaller pits

Made possible by cheap blue LED lasers

CD/DVD recording

CD-R, DVD-R, BD-R

Ink darkened by high-power laser

Older players cannot read recordable CDs

Erasable CD/DVD recording

CD-RW, DVD-RW, DVD+RW, BD-RW

RW stands for "Rewritable", not "Read/Write"

phase-change metal alloy that changes reflectivity at different temperatures

One laser power level writes, another power level erases.

Older players that could read CD-R could not read CD-RW

CD player that can read any CD format are called "Multiread"

DVD+RW vs. DVD-RW

DVD+RW is better-suited for on-disk editing than DVD-RW. Otherwise, they are about the same

Magneto-optical recording

Technology

Obsolete

Smaller magnetic domains can be created because domains don't tend to enlarge over time as in regular floppy disks. The disk must be warmed by a laser for writing. Writing is by a magnetic head, as in floppy disks. Disks are read optically by laser and optical sensor.

Brands

Bournelli

LS-120

Zip disk

Jazz disk