NASA Research Propels Development Of New Glass

Dolores Beasley
Headquarters, Washington October 7, 2003
(Phone: 202/358-1753)

Steve Roy
Marshall Space Flight Center, Huntsville, Ala.
(Phone: 256/544-0034)

Joshua Chamot
National Science Foundation, Arlington, Va.
(Phone: 703/292-7730)

RELEASE: 03-320

NASA RESEARCH PROPELS DEVELOPMENT OF NEW GLASS

There's a new glass in town. The glass, developed with
the help of a unique NASA levitator facility, is available for
numerous commercial applications including lasers and optical
communications.

"We have patented a family of new glasses and have established
processes for making and using them in practical
applications," said Dr. Richard (Rick) Weber, director of the
Glass Products Division of Containerless Research Inc., the
small company that invented and produces the glass in
Evanston, Ill. "We're already making commercial quantities of
glass rods and plates for use in lasers," he said.

REAl Glass -- made from Rare Earth oxides, Aluminum oxide
and small amounts of silicon dioxide -- has unique properties
that were identified using both the company's containerless
processing techniques and a NASA ground-based research
facility.

As part of a NASA research grant for a proposed International
Space Station flight experiment, Weber conducted research in
the Electrostatic Levitator at NASA's Marshall Space Flight
Center in Huntsville, Ala. The levitator, where molten spheres
of glowing material float with no visible means of support or
containment, is one of the nation's few facilities where
scientists can process materials without using contaminating
containers.

"This shows how basic NASA research can lead to innovative
materials and new products that can benefit everybody," said
Dr. Michael Wargo, Enterprise Scientist for materials science
in NASA's Office of Biological and Physical Research in
Washington.

Containerless Research's development of applications and new
products for lasers, optical communications, and surgical
lasers is supported by grants from the National Science
Foundation and the Air Force Office of Scientific Research.

"The development of REAl Glass shows how the Small Business
Innovation Research (SBIR) program works by building on good
ideas that come from basic research and helping small
businesses grow into commercial manufacturers of innovative
products," said Dr. Winslow Sargeant, who directs the National
Science Foundation SBIR Commercialization Program for devices.
"We are working with Containerless Research Inc. by supporting
product research and development that can help them grow the
business and continue to create new products and new jobs,"
Sargeant explained.

REAl Glass has qualities useful for creating materials for
demanding optical applications. "We've taken many of the best
qualities of the current materials and created a new glass
that can be produced inexpensively," Weber said.

One of the most promising uses of the glass is for lasers.
Whether it is a power laser for cutting metal for car bodies
or a medical laser used for surgery, the "heart" of lasers is
the gain medium, which is where REAl Glass can be used. This
critical component increases or amplifies light, resulting in
an intense, highly concentrated beam capable of precisely
cutting metal parts or surgically removing or repairing human
tissue.

"Most surgical lasers now use expensive single crystals, which
limit the range of operating wavelength to very narrow bands,"
explained Weber. "REAl Glass would provide tunability, which
can give more control over surgical procedures, an important
factor in different types of surgery and for different skin
types. Our glass can provide efficient power lasers and expand
coverage to new wavelengths," he said.

REAl Glass also provides a medium for next-generation optical
communications devices that need to be small, low-cost and
powerful to provide fiber for home connections for broadband
Internet. The company can customize the glass composition for
these uses. The family of REAl Glass materials is patented
under U.S. Patent No. 6,482,758 issued Nov. 19, 2002, and is
only available from Containerless Research Inc., or under
license.

For information on NASA's Electrostatic Levitator, a list of
peer-reviewed articles describing this research, and to
download photographs to accompany this news release, visit:

http://www.msfc.nasa.gov/news

For information about REAI Glass and Containerless Research
Inc. on the Internet, visit:

http://www.containerless.com/realglass.htm

-end-

Ron Baalke wrote:
REAl Glass -- made from Rare Earth oxides, Aluminum oxide
and small amounts of silicon dioxide

Transparent Aluminium ?

"Montgomery Scott" wrote in message
...
Ron Baalke wrote:
REAl Glass -- made from Rare Earth oxides, Aluminum oxide
and small amounts of silicon dioxide

Transparent Aluminium ?

Aye Lad, who said they did not invent it?

L. McCoy

Ron Baalke wrote:

03/292-7730)

RELEASE: 03-320

NASA RESEARCH PROPELS DEVELOPMENT OF NEW GLASS

(gigantic content-free press release snipped)

C'mon, Ron, don't just give us the verbiage, tell us what it's good for,
and why we should care.

Cheers,

Phil Hobbs

On Tue, 07 Oct 2003 16:32:22 -0400, Phil Hobbs
wrote:

Ron Baalke wrote:

03/292-7730)

RELEASE: 03-320

NASA RESEARCH PROPELS DEVELOPMENT OF NEW GLASS

(gigantic content-free press release snipped)

C'mon, Ron, don't just give us the verbiage, tell us what it's good for,
and why we should care.

Exactly. I read through the whole blah blah in the hope to find out
what's so special about it and was very disapointed.

Christoph

Christoph Bollig writes:

On Tue, 07 Oct 2003 16:32:22 -0400, Phil Hobbs
wrote:

Ron Baalke wrote:

03/292-7730)

RELEASE: 03-320

NASA RESEARCH PROPELS DEVELOPMENT OF NEW GLASS

(gigantic content-free press release snipped)

C'mon, Ron, don't just give us the verbiage, tell us what it's good for,
and why we should care.

Exactly. I read through the whole blah blah in the hope to find out
what's so special about it and was very disapointed.

Judging from the meager content that was there, I would assume that if
it can be manufactured in suspension without contact with other materials,
the purity could be higher.

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Exactly. I read through the whole blah blah in the hope to find out
what's so special about it and was very disapointed.

Well, it does say:

"Most surgical lasers now use expensive single crystals, which
limit the range of operating wavelength to very narrow bands,"
explained Weber. "REAl Glass would provide tunability . . .
Our glass can provide efficient power lasers and expand
coverage to new wavelengths," he said.

I don't know enough about the field to know whether tunability, new
wavelengths, and efficient power are really new.

Now, if you want technical details, you'll need to find the papers
(perhaps at http://ntrs.nasa.gov/ or in the patent No. 6,482,758).
This is a news release aimed at a non-technical audience.

Christoph Bollig wrote:

On Tue, 07 Oct 2003 16:32:22 -0400, Phil Hobbs
wrote:

Ron Baalke wrote:

03/292-7730)

RELEASE: 03-320

NASA RESEARCH PROPELS DEVELOPMENT OF NEW GLASS

(gigantic content-free press release snipped)

C'mon, Ron, don't just give us the verbiage, tell us what it's good for,
and why we should care.

Exactly. I read through the whole blah blah in the hope to find out
what's so special about it and was very disapointed.

One wonders if you did read it, as numerous potential applications
were in the release.

D.
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Corrections, comments, and additions should be
e-mailed to , as well as posted to
sci.space.history and sci.space.shuttle for
discussion.

Derek Lyons wrote:

Christoph Bollig wrote:
(snip)
Exactly. I read through the whole blah blah in the hope to find out
what's so special about it and was very disapointed.

One wonders if you did read it, as numerous potential applications
were in the release.

D.

Let's not get into a flame war about this, gang, we've already used up
way more bandwidth than the original press release I was complaining
about. The application areas were named, but there wasn't much about
how you'd go about using it, or what its special properties actually
were. Glass laser rods typically have broader line widths, shorter
upper state lifetimes, and much poorer thermal conductivity than crystal
rods, which enables a few applications and constrains many others. This
glass apparently has some unusually good properties, but what are they?
(The post appeared in alt.lasers as well as sci.space.station.)

Cheers,

Phil Hobbs

Phil Hobbs writes:

Let's not get into a flame war about this, gang, we've already used up
way more bandwidth than the original press release I was complaining
about. The application areas were named, but there wasn't much about
how you'd go about using it, or what its special properties actually
were. Glass laser rods typically have broader line widths, shorter
upper state lifetimes, and much poorer thermal conductivity than crystal
rods, which enables a few applications and constrains many others. This
glass apparently has some unusually good properties, but what are they?
(The post appeared in alt.lasers as well as sci.space.station.)

I very quickly scanned the patent and didn't see anything obvious to
justify claims about laser applications. But it's quite possible I
just missed it.

--- sam | Sci.Electronics.Repair FAQ Home Page: http://www.repairfaq.org/
Repair | Main Table of Contents: http://www.repairfaq.org/REPAIR/
+Lasers | Sam's Laser FAQ: http://www.repairfaq.org/sam/lasersam.htm
| Mirror Site Info: http://www.repairfaq.org/REPAIR/F_mirror.html

Important: The email address in this message header may no longer work. To
contact me, please use the Feedback Form at repairfaq.org. Thanks.