In This Issue
Optifab Abstract Submissions
There is still a one-week window for submissions of abstracts for Obtifab. The conference in May looks very strong (more authors, more papers, more posters) and the content is strong, but we know there are people in the optics community that have not submitted abstracts because they do not realize the due date has come and gone.
If you want to be present a paper at Optifab 2011, submit your abstract to Jay Kumler, program chair, within the next week. jay.kumler/at\jenoptik-inc.com
In conjunction with Optifab 2011, APOMA will sponsor travel grants and monetary awards for Outstanding Student Poster at Optifab.
Multiple $200 travel grants will be awarded to students presenting posters at Pptifab. In addition, a $1,000 Exceptional Student Paper award and a $750 Outstanding Student Paper award will be made at the conference. Posters will be judged by APOMA industry representatives. Student applicants must provide the documentation described below, including abstract and a signed proof of current student (undergraduate or graduate) status signed by their advisor.
The travel grants are intended to encourage student participation at regional or national conferences that broaden academic education, while providing first hand exposure to technical and manufacturing issues important to the optics industry. The grants may be used to defer costs associated with transportation, registration or housing. Guidelines and eligibility are given below.
APOMA Workshop Surveys Technology
Sixty representatives from all over the U.S. convened in Tucson, Arizona at the Optical Science Building at the University of Arizona November 10th and 11th. The workshop even attracted five participants from Germany.
The back-to-back schedule included talks about all aspects of optical fabrication including polishing, metrology, standards - even a fascinating discussion by John Greivenkamp about the 300-year quest for binoculars.
A tour of the Steward Observatory Mirror Lab included a great view of one of the seven 8.4 meter diameter off-axis primary segments for the Giant Magellan Telescope, destined for the Las Campanas Observatory in Chile.
DoD SBIR 11.1 Solicitation was issued for public release on November 10, 2010
The DoD SBIR 2011.1 solicitation was pre-released at on November 10, 2010. The Army, Navy, DARPA, CBD, DTRA, OSD, and SOCOM invite small businesses to submit proposals under this solicitation. During the pre-release period, which ends on December 12, you may contact the topic authors directly (contact information is listed with the topic) to ask technical questions about specific solicitation topics. The DoD will begin accepting proposals on December 13, 2010 and will close to proposals on January 12, 2011 at 6:00 a.m. ET. Plan ahead and submit your proposal early to avoid the risk of website inaccessibility due to heavy usage on the final day.
The Tibbetts Awards nomination process opened November 15, 2010.
The Tibbetts Awards are presented to those small businesses and individuals judged to exemplify the best in the SBIR program. The award is named for Roland Tibbetts, acknowledged as the father of the Small Business Innovation Research (SBIR) program, and is presented to companies and individuals that promote the mission and goals of the SBIR program and Small Business Technology Transfer (STTR).
The nomination period will close on December 15, 2010 at 5 PM ET. Anyone can nominate a company and/or individual for a Tibbetts Award - including self-nominations.
More information on eligibility, evaluation/selection criteria, and the nomination process can be found on the SBA website.
New Patent for New Scale
New Scale Technologies received its fifth U.S.patent for miniature piezoelectric motortechnology. Trade-named the UTAF motor (for Ultra-Thin Auto Focus, its target application), the tiny new device integrates all ultrasonic motor functions into a single piezoelectric ceramic beam measuring only 4.5 X 0.82 X 0.7 mm.
U.S. patent # 7,786,648 was issued Aug. 31, 2010 to inventors Qin Xu and David Henderson.
Piezoelectric ceramics vibrate in response to electrical signals; ultrasonic motors translate those micrometer-scale vibrations into larger motion through friction contact. The UTAF motor uses an innovative co-fired multi-layer ceramic process to create a single beam composed of many thin layers of piezo ceramic. Sub-segments of the monolithic beam are energized independently, causing the beam to vibrate simultaneously in two orthogonal directions as its motion mechanism. Frequency, phase and amplitude of the ultrasonic vibrations are controlled by a two-phase drive circuit. Because the layers are very thin, they respond to signals of only 3 volts or less. This is a significant advantage in smart phone camera applications, as it allows the UTAF motor to operate directly from the phone battery.
New Scale has licensed its UTAF motor patent to TDK-EPC (EPCOS), a world leader in manufacturing advanced multi-layer piezoelectric ceramics. "The UTAF motor combines the motor design innovation of New Scale Technologies with the world-class manufacturing capabilities of EPCOS," stated David Henderson, New Scale's founder and co-CEO. "Together we have created a truly unique solution for adding high-performance auto focus to smart phone cameras."
R&D On the Shop Floor
Optimax has blended their R&D and manufacturing teams to work together on creating solutions for real time manufacturing issues. Opticians and Manufacturing Engineers are able to collaborate on the experiments on the production floor. As a result, the entire team is working to develop a standardized finishing process and increase UV transmission by improving the manufacturing process for Fused Silica - creating practical solutions for emerging market requirements.
New RRPC Members
Embedded Design with D3
D3 Engineering provides intelligent Imaging, Sensor & Control solutions for the Industrial, Biomedical, and Security/Surveillance markets. The company provides complete product development services, including hardware, software, algorithms, and packaging. D3's Imaging & Sensors group develops realtime systems for machine vision, image processing, and photonic devices, including end-to-end opto-mechanical design services.
D3's Power & Motion group develops DSP-based Digital Power, Motion Control, and Energy Management solutions, including the design of high power electronics.
Specializing in rapid prototyping and low-rate production, D3 leverages over a decade of expertise in TI DSP, Microcontroller, and MEMS technology development to provide rapid time-to-market results for our customers.
D3’s quality management system conforms to FDA 21 CFR Part 11 practices, as well as IEC 61508 and DO-178B certification procedures for automotive and aircraft design.
Vacuum Innovations is dedicated to the manufacture of exceptionally-engineered, high-quality equipment for optical coating deposition processes. We understand the frustration of equipment failures, lengthy down times, and the resulting impact on your productivity. After using and researching optical coating equipment for many years, we've engineered superior products that ensure precision and uniformity - providing higher yields, easier maintenance, simpler operation, and a better investment.
At Vacuum Innovations, we'll sit down with you and discuss your specific needs. No longer will you have to return to the OEM for costly upgrades. Whether you need a planetary rotation, system controller, or a fully redesigned system - we have you covered!
Events and Conferences
SPIE Photonics West
SPIE Medical Imaging
SPIE Defense, Security & Sensing
Laser World of Photonics, Munich
Frontiers In Optics / Laser Science
Rare Earths Shortage
Beijing cut its export quotas for rare earths 40% this year to roughly 30,000 tons, claiming the need to conserve the resources for sustainable growth of various industries in China, and that their actions fall well within WTO's trade guidelines.
Bull Market Report, an online investment newsletter, announced in its daily report, "It is true that China controls 95% of the market at present, but that is different from China controlling 95% of the available supply which it does not."
Indeed, recent surveys show that the United States has abundant supplies within its own borders, although extracting them can be costly, with envirnmental concerns that many were willing to outsource to China along with the commodities themselves.
Researchers have been pressured to develop substitute products for everything from new magnet materials to polishing slurries.
Half of China's rare earths go to Japan which uses them in high-technology products. Shipments of rare earths, which resumed to other countries in late October, also resumed to Japan in late November according to a survey of 27 companies by Japan`s Economy, Trade and Industry Ministry . Some of Japan's larger corporations have been active trying to establish a global sourcing strategy.
Sojitz, a Tokyo-based trading company, announced a $250 million procurement deal with an Australian mining company. Rumors circulated that Japanese firms had already secured the complete output of certain minerals from the Mountain Pass mine in California for ten years, once production resumes. In fact, it appears that heavyweight W.R. Grace & Company is securing some of those rights. The Mountain Pass mine, run by the American company Molycorp has not been in production during the past decade.
According to a New York Times report, camera manufacturers have been so affected by the rare earth shortage that they have bought tons of the mineral compounds from stockpiles in Europe and airlifted them to Japan.
Meanwhile, fabricators in the optics industry who have relied on rare earths such as cerium oxide for crucial polishing processes, and who never paid much attention to mining industry reports, now regularly scan Internet news sources for the latest news concerning rare earths. None of this of course, bodes well for pricing in the future, and higher prices will no doubt simply be added to the score of inputs into high technology product production -- ultimately adding to inflationary pricing forces on everything from televisions to cars to motors and wind turbines -- even missile domes.
Even local business reporters in the Rochester region have gotten wind of the story from companies feeling the pressure. Off the record, however, one VP of sales commented, "ultimatelythis will get passed on to the customer and what will they see in their pricing, an additional few cents per part?"
Some savvy speculators have done well with mining stocks during the past year.
Copyright 2010, Rochester Regional Photonics Cluster, Inc.
New York Photonics and The Rochester Regional Photonics Cluster (RRPC) are not-for-profit organizations founded to promote and enhance the New York State photonics, optics and imaging industry by fostering the cooperation of business, academia and government.