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17-Jul-08. AIT620. 2. Objectives. Why are blue lasers being used for new storage devices?What devices are on the market?What are the characteristics and advantages of blue lasers?The current status and future of blue laser technology. 17-Jul-08. AIT620. 3. A timeline. First optical laser: 1960L
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1. Blue lasers Keith Beatty
AIT620
17Jul08
2. 17-Jul-08 AIT620 2 Objectives Why are blue lasers being used for new storage devices?
What devices are on the market?
What are the characteristics and advantages of blue lasers?
The current status and future of blue laser technology
3. 17-Jul-08 AIT620 3 A timeline First optical laser: 1960
Low cost lasers (red): 1980s
Exploit the technology: 1990s
Needed to move from infrared to blue
shorter wavelength, higher power diodes
ATP research: Xerox, Stanford, SDL: (1991)
Shuji Nakamura (Nichia Chemical) credited with development of the blue laser: (mid-90s)
Blue lasers need different semiconductor media
Wafers known to be better quality on gallium nitride
Traditional sapphire or silicon carbonate inadequate
Sumitomo Electronics Industries LTD. (Kensaku Motoki), figures this out: ~ 2003
Mass production of thin, crystal-clear disks
Made from pure Gallium nitride
Smaller than sapphire wafers
Have less electrical resistance due to electrode placement (advantage)
Sony ships first Blu-ray DVD recorder: March, 2003
Millennium Technology prize to UCSBs Shuji Nakamura: 2006
DVD format war: ~2006-8
Format war ends: 2/19/2008 Toshiba capitulates
4. 17-Jul-08 AIT620 4 Characteristics Wavelength = the distance between two consecutive identical points on the wave form
To decrease pit sizes, move beyond red
650 nm = 15 GB single/30 GB dual (layer)
405 nm = 25 GB single/50 GB dual (layer)
405 nm considered blue-violet laser (DVD HD/Blu-ray)
5. 17-Jul-08 AIT620 5
6. 17-Jul-08 AIT620 6 Technical specifications
7. 17-Jul-08 AIT620 7 Advantages More data capacity on same size medium
Single polycarbonate substrate not two halves (Blu-ray)
Less electrical resistance due to placement of electrodes
Closeness near field of data surface to R/W head reduces amount of tilt deflection errors (Blu-ray)
Substrate need not be optical grade - laser doesnt pass through all of it (Blu-ray)
8. 17-Jul-08 AIT620 8 Commercial/Current Applications High Density Optical Storage:
The primary impetus for blue laser development is the continuing demand for increased storage capacity
Highly stable recording surface
>50 year media life
Devices are on the market:
DVD readers:
Sony, Matsushita, Hitachi, Pioneer, Samsung, Sharp, LG, Thomson (the usual suspects)
Media:
Hitachi, JVC, Panasonic, Sony, Toshiba, Pioneer, TDK, Maxell
UDO (Ultra Density Optical): www.plasmon.co.uk
Laser modules:
The RGBLase LLC
488/473/457/445 nm OEM BLUE laser module
405/375 nm BLUE VIOLET OEM laser module
Any manner of Asian (25) manufactures: www.asianproducts.com
Biotechnology:
Bio-Medical instrumentation
Flow Cytometry (counting, examining, & sorting microscopic particles suspended in a stream of fluid)
DNA sequencing
Raman Spectroscopy
water purification
Color printing:
Use blue diodes to expose commercial printing plates
Other:
Optical mice and gaming
9. 17-Jul-08 AIT620 9 Commercial/Current Applications But, most important application is in entertainment
Consumer demand for more content spurs market
Initially, two competing standards
HD-DVD vs. Blu-ray
Toshiba vs. Sony, round 2
2 layers vs. overlays
Known (HD-DVD) vs. new (Blu-ray) production models
Blu-ray technology wins
Much faster than previous conflict (VHS vs. Beta)
Reasons
Known technology doesnt push the envelope enough?
Microsoft does not adopt HD-DVD for X-box
Ships early to gain market against Sony
Content control vs. lost revenue
10. 17-Jul-08 AIT620 10 Security Content control = $$
The MPAA wants very much to control access to its content
Two content protection schemes attempt to assert ownership control
Advanced Access Content System (AACS)
Self-Protecting Digital Content (BD+)
Revocation through traceability
AACS:
Similar to a certificate revocation list (CRL)
denies all devices in a class
More vulnerable to extended compromise
SPDC (BD+):
BD+ is programmable security for Blu-ray
Layered on top of AACS
Responds dynamically to threats with embedded VMs & integrated APIs
Similar to a TPM chip
contains metrics on per device basis
Can delay but cannot completely deny compromise
However, delay is an acceptable mitigation to MPAA
The major reason for Blu-ray victory (opinion)
Digital Rights Management (DRM) on client + SPDC = content control = $$
11. 17-Jul-08 AIT620 11 The future Move toward the end of the light spectrum
Blue-violet and beyond (< 405nm)
3 to 8 tracks (layers)
Storage Opportunity
How large is the window (8-10 years)?
Holographic technology as a quantum leap
Rushing to the next new thing
Blu-ray and the MPAA
It is the standard
now
But when will there be more Blu-ray DVDs?
Video compression (codecs) have impacts
Will there even be a movie on the DVD?
Whither the Internet direct downloads to home?
If online movie distribution takes off sooner than expected, Sony may fail to recoup its investment
12. 17-Jul-08 AIT620 12 Summary Blue laser has shorter wavelength (than red)
Information more densely packed on media
Storage the single biggest motivation for development of blue laser technology
Blue lasers are used in storage, particularly video storage, and biotechnology
May be superseded by holographic storage technology (or other) within a decade
SPDC is a superior content protection scheme
13. 17-Jul-08 AIT620 13 References ATP Status Report 91-01-0176. Monolithic Array of Laser Diodes Expand Laser Applications. 10/2001 & 6/2003.
Dixon, Douglas. Making Sense of Digital Media Technology: Multi-Layer High-Def DVD Technology. 9/2005. www.manifest-tech.com/media_dvd/dvd_hd_multi_layer.htm
Geppert, Linda R. Winner: The Great Gallium Nitride Gamble. January, 2004. http://www.spectrum.ieee.org/jan04/3913
Independent Security Evaluators. Content Protection for Optical Media: A Comparison of Self-Protecting Digital Content and AACS. 5/3/2005. www.securityevaluators.com
Managing Rights Management: Blu-ray BD+. 3/26/2007. www.managingrights.com/2007/03/bluray_bd.html
McBride, s., Kane, Y.I, Wingfield, N. In Blu-ray Coup, Sony Has Opening but Hurdles, Too. WSJ. 1/7/2008. pg. B.1.
OKelly, Terence. Memorex Whitepaper: Reference Guide for Blue Laser Media. 6/2006. www.memorex.com/downloads/whitepapers/WhitePaper_Blue_Laser_Jun06.pdf
Op-ed. Blue-Ray Vision. WSJ. 2/22/2008. pg. A. 14 [editorial].
RGBlase LLC. www.rglbase.com/405nm.htm & www.rglbase.com/473nm.htm
Rosenblatt, Bill. Blu-ray Group Announces Content Protection Strategy. 8/11/2005. www.drmwatch.com/drmtech/article.php/3526796
Sony sells first blue-laser DVD recorder. Reuters. 3/4/2003. www.cnn.com/2003/TECH/ptech/03/04/blue.dvd.reut/index.html
Stewart, Lee. Macrovision to Acquire Blu-ray Disc Sec. Tech. (BD+) from Cryptography Research. 11/19/2007. www.highdefforum.com/showthread.php?t=56297.
UCSB Press Release. 2006 Millennium Technology Prize Awarded to UCSBs Shuji Nakamura. 6/15/2006. www.ia.uscb.edu/pa/display.aspx?pkey=1475.
UDO Fact Sheet. 2004. www.pegasus-afs.com/PDFs/UDO_facts.pdf
www.asianproducts.com. Keyword: blue laser pointer manufacturers.