Reusable Paper

Xerox’s Reusable Paper

Almost half of the paper used in American offices is for daily use. It is for display, not storage and, at the end of the day, it’s in the trash can. All of the energy that was put into harvesting, processing, and shipping that paper was, in the end, for less than a day’s use. A number of companies are working on alternatives to this procedure.

The system is based on ‘paper’ that contains light sensitive materials. When exposed to certain wavelengths of light, the paper changes to a darker that then slowly fades. Neither the light-sensitive paper, nor the light printers are ready for consumers

Interesting. It is great to see all the efforts undertaken by scientists and engineers to improve. The more we can have working everywhere in the world the better off we will be.

Open Access Legislation May Be Included in HHS Budget Bill

Open Access to Research Funded by U.S. Is at Issue by Rick Weiss:

The idea is that consumers should not have to buy expensive scientific journal subscriptions — or be subject to pricey per-page charges for nonsubscribers — to see the results of research they have already paid for with their taxes. Until now, repeated efforts to legislate such a mandate have failed under pressure from the well-heeled journal publishing industry and some nonprofit scientific societies whose educational activities are supported by the profits from journals that they publish.

But proponents — including patient advocates, who want easy access to the latest biomedical findings, and cash-strapped libraries looking for ways to temper escalating subscription costs — have parlayed their consumer-friendly “public access” message into legislative language that has made it into the Senate and House versions of the new HHS bill.

The opponents of open science are lobbying to keep scientific research funded by taxpayers unavailable to the public. As I have said before it is time to stop supporting those who attempt to stop scientific progress. The out of date thinking behind closed access journals should be discouraged and those journals fighting progress should not be supported. This legislation would bring openness to federal research in a similar manner to the steps taken by Howard Hughes Medical Institute announced for research they fund.

Related: Publishers Continue to Fight Open Access to ScienceScience Journal Publishers Stay StupidI Support the Public Library of ScienceOpen Access Legislation supported by 25 leading university provosts (2006)

The Study of Bee Colony Collapses Continues

The attempts to discover the causes of the die off of bees in the USA continues. This effort provides a good example of the difficulty of learning what really happens around us. Often, once things are worked out, and explained they seem simple and even obvious. But while trying to figure events taking place (like the bee colony collapses), scientists have significant challenges. The hard work and the application of scientific concepts by scientists allow us to learn and adapt. I think the difficulty can paint a valuable picture of what science is about. That search for understanding is wonderful to see and something fundamental to the human experience. Disappearing Bee Mystery Deepens

One year ago, beekeepers across the country began to report that worker bees were inexplicably abandoning their hives and leaving the brood to die. Although firm statistics are hard to come by, so-called colony collapse disorder may have afflicted as many as 25% of U.S. beekeepers and perhaps others around the world. Possible culprits included pesticides, parasites, and chronic stress from poor nutrition and the long-distance truck rides that many commercial hives undergo.

For that matter, no one has yet shown that IAPV can cause colonies to collapse. “Until you have introduced the virus and caused disease, you’re just postulating,” cautions Bruce Webb, an entomologist at the University of Kentucky in Lexington. “The conclusive data are not in.”

Related: Bye Bye BeesVirus Found to be One Likely Factor in Bee Colony Collapse Disorder

Presidential Early Career Awards for Scientists and Engineers

The Presidential Early Career Awards for Scientists and Engineers, established in 1996, honors the most promising researchers in the Nation within their fields. Nine federal departments and agencies annually nominate scientists and engineers who are at the start of their independent careers and whose work shows exceptional promise for leadership at the frontiers of scientific knowledge. Participating agencies award these talented scientists and engineers with up to five years of funding to further their research in support of critical government missions.

Awards were announced today – links to some of the awardees:

  • Jelena Vuckovic, Assistant Professor of Electrical Engineering, Stanford University
  • Matthew Rodell, Physical Scientist, NASA
  • Katerina Akassoglou, Assistant Professor of Pharmacology, University of California, San Diego
  • Carlos Rinaldi, Associate Professor of Chemical Engineering University of Puerto Rico at Mayagüez
  • Ahna Skop, Assistant Professor of Genetics, University of Wisconsin-Madison
  • Krystyn J. Van Vliet, Assistant Professor of Materials Science and Engineering, MIT
  • Odest Chadwicke Jenkins, Assistant Professor, Department of Computer Science, Brown University

Related: 2006 MacArthur FellowsYoung Innovators Under 35Presidential Early Career Award for Scientists and Engineers (2006)NSF Release on 2007 awardees that are also NSF CAREER awardees

Scrap Computer Chips Reclaimed as Solar Cells

IBM Pioneers Process to Turn Waste into Solar Energy

The new process uses a specialized pattern removal technique to repurpose scrap semiconductor wafers — thin discs of silicon material used to imprint patterns that make finished semiconductor chips for computers, mobile phones, video games, and other consumer electronics — to a form used to manufacture silicon-based solar panels. The new process was recently awarded the “2007 Most Valuable Pollution Prevention Award” from The National Pollution Prevention Roundtable (NPPR).

The new wafer reclamation process produces monitor wafers from scrap product wafers – generating an overall energy savings of up to 90% because repurposing scrap means that IBM no longer has to procure the usual volume of net new wafers to meet manufacturing needs. When monitors wafers reach end of life they are sold to the solar industry. Depending on how a specific solar cell manufacturer chooses to process a batch of reclaimed wafers – they could save between 30 – 90% of the energy that they would have needed if they’d used a new silicon material source.

The Simplest Universal Turing Machine Is Proved

The Prize Is Won; The Simplest Universal Turing Machine Is Proved:

And so as part of commemorating the fifth anniversary of A New Kind of Science on May 14 this year, we announced a $25,000 prize for determining whether or not that Turing machine is in fact universal. I had no idea how long it would take before the prize was won. A month? A year? A decade? A century? Perhaps the question was even formally undecidable (say from the usual axioms of mathematics).

But today I am thrilled to be able to announce that after only five months the prize is won–and we have answer: the Turing machine is in fact universal! Alex Smith–a 20-year-old undergraduate from Birmingham, UK–has produced a 40-page proof.

Vaughan Pratt Standford CS professor, disputes the proofs validity.

Related: Poincaré Conjecture1=2: A ProofDonald Knuth, Computer Scientist248-dimension Math Puzzle

Uruguay buys first $100 laptops

Uruguay buys first $100 laptops

The first official order for the so-called “$100 laptop” has been placed by the government of Uruguay. The South American country has bought 100,000 of the machines for schoolchildren aged six to 12. A further 300,000 may be purchased to provide a machine for every child in the country by 2009.

OLPC aims to sell the laptop for $100 or less. However, over the last year, the machine’s price has steadily increased and now costs $188 (£93). Governments were initially offered the green and white machines in lots of 250,000. However, this has since changed and there are now a variety of ways that the laptops are sold or distributed. For example, from 12 November, members of the public can buy a machine for themselves as well as one for a child in a developing country. The Give 1 Get 1 (G1G1) programme will initially distribute laptops to Cambodia, Afghanistan, Rwanda and Haiti.

Related: Make the World Better$100 Laptop Update

PhD Student Speeds up Broadband by 200 times

John Papandriopoulos

Local whiz speeds up broadband by 200 times:

A Melbourne PhD student has developed technology to make broadband internet up to 200 times faster without having to install expensive fibre optic cables.

Harnessing the potential power of telephone lines and DSL broadband, the technology will deliver internet speeds up to 250 megabits per second, compared with current typical speeds of between one and 20 megabits per second. Dr John Papandriopoulos, who has patent applications for the technology being processed in the US and Australia, won one of Melbourne University’s top academic prizes yesterday, a Chancellor’s Prize for Excellence in the PhD.

It sure seems like many of these breakthroughs never actually make it into my life. It would be nice if this one did. On the research page of his web site he uses the under-utilized blink tag 🙂 He also has a some nice explanations on his site:

Our technology, developed as part of my Ph.D. thesis work with advisor A/Prof. Jamie Evans, aims to manage this crosstalk interference, consequently allowing telecommunication providers to maximize the data-rates of their networks. We can do this dynamically, and adaptively, to try and get the “best compromise” of interference between neighboring lines to maximize performance. In research circles, this is known as “Dynamic Spectrum Management” (DSM).

Practice First, Theory Later

The best engineering school in the United States?

What makes Olin special – and what puts it at the top of my “Engineering Schools I Wished I Had Gone To” list—is its “practice first, theory later” approach. Olin was designed to make students plunge into hands-on engineering projects on day one. “Instead of theory-heavy lectures, segregated disciplines, and individual efforts,” I wrote in that article, “Olin champions design exercises, interdisciplinary studies, and teamwork.”

Experts say a deep reform of engineering education in the United States is long overdue. We need a new type of engineer trained to face today’s challenges, not those of post World War II, when many curricula were created. Could this new engineer be … the Olin engineer? That’s what I set out to find out when my editors assigned me the story on Olin.

What I found during my reporting, and what I tried to convey in the article, is that Olin is like no other engineering school I’d ever visited. Pretty much everything about it is unique. The installations are brand new, the faculty is young and motivated, the curriculum innovative. Professors don’t have to worry about tenure, students don’t have to worry about tuition. The students I met were bright, ambitious, outspoken, and diverse in their interests and personalities. They all want to lead, succeed, excel. They behave almost like MBA students training to be CEOs except they’re dressed in pajamas programming robots. For outsiders, it can be an overwhelming experience to meet a classroom full of Olin engineers.

Related: Improving Engineering EducationThe Engineer That Made Your Cat a PhotographerRe-engineering Engineering EducationOn Novelty in Engineering Education

Most Powerful Anti-matter Beam Yet

NC State Nuclear Reactor Program Celebrates Scientific Breakthrough

Success was two years in the making – the positron project began in 2005 as a collaboration between NC State, the University of Michigan and Oak Ridge National Laboratory with the support of the U.S. Department of Energy and the National Science Foundation. “The idea here is that if we create this intense beam of antimatter electrons – the complete opposite of the electron, basically – we can then use them in investigating and understanding the new types of materials being used in many applications,” Hawari said.

Now that the intense beam has been generated, members of NC State’s nuclear engineering program and their collaborators will turn their focus to developing instrumentation such as antimatter spectrometers and potentially long-discussed antimatter microscopes, which would allow for a much more detailed look into materials at the atomic level.

NC State Nuclear Reactor Generates Record Low-Energy Positron Beam

Once the stuff of science fiction, these anti-matter, or positron, beams have a multitude of uses in nanoscience and materials engineering because of the positron’s ability to gravitate toward and trap in defects or pores in a material at sizes as small as a single atom. Positrons are used to detect damage from radiation in nuclear reactors and are impacting the emerging field of nanoengineered materials where nanometer-sized voids control properties such as dielectric constant in microelectronic devices and hydrogen storage in fuel cells.

An intense positron beam means that researchers will have better measurements of a material’s porosity, especially in high-tech thin film applications where traditional techniques falter. This beam will be used in Positron Annihilation Lifetime Spectrometry (PALS) and Doppler Broadening Spectrometry (DBS). Hawari also believes that other positron analysis techniques will become possible. While the spectrometers are not yet built, they are on the books for completion next year.