Ed Crane on the GOP

This is about as good an explanation on what happened to the GOP over the last ten years or so as you’ll find anywhere — Edward H. Crane, president of the Cato Institute, on Obama as a statist and where the Republican Party has gone wrong.

The only major factor he left out is Karl Rove’s horrible, and failed, plan for a “permanent GOP majority” (and what a joke that phrase sounds like only a few years later) that entailed pissing off 49.9% of the population and winning every race by the thinnest of margins.

It could be argued Rove’s plan unraveled when he lost control of the immigration debate and rogue party members ruined his Latino plan. It can also be argued (with better internals) that the GOP never had the Latino vote in a bloc as large as was advertised. As it turns out Bush 41 did better among the Hispanic vote than Bush 43, a rarely explored or aired fact.

Here’s Crane’s excellent analysis from the link:

Time for those conservatives serious about limited government to re-read Goldwater’s Conscience of a Conservative. Strategically, conservatives have made three major mistakes. The first was to follow the advice of supply-side guru (and big-government Democrat) Jude Wanniski and not talk about spending cuts, much less the proper role of government. Economic growth replaced individual liberty as the rallying cry of far too many GOPers. Second, the neocons — mostly statists themselves — should never have been accepted into the fold. All they give us is a war against a country that never attacked us and schemes for “national greatness” like going to Mars. Enough. Finally, conservatives should jettison the social agenda of gay marriage, flag burning, and school prayer, and focus instead on federalism. Politics is about man’s relationship to the state. That relationship, to be healthy, should be minimal

Text of Fed’s interest rate statement

The statement:

Text of the Federal Reserve’s Statement on Interest Rates

Following is the text of the statement by the Federal Reserve on Wednesday announcing it was holding its base federal funds target rate at a record low between zero and 0.25 percent:Information received since the Federal Open Market Committee met in March indicates that the economy has continued to contract, though the pace of contraction appears to be somewhat slower. Household spending has shown signs of stabilizing but remains constrained by ongoing job losses, lower housing wealth and tight credit. Weak sales prospects and difficulties in obtaining credit have led businesses to cut back on inventories, fixed investment and staffing. Although the economic outlook has improved modestly since the March meeting, partly reflecting some easing of financial market conditions, economic activity is likely to remain weak for a time. Nonetheless, the committee continues to anticipate that policy actions to stabilize financial markets and institutions, fiscal and monetary stimulus, and market forces will contribute to a gradual resumption of sustainable economic growth in a context of price stability.   In light of increasing economic slack here and abroad, the committee expects that inflation will remain subdued. Moreover, the committee sees some risk that inflation could persist for a time below rates that best foster economic growth and price stability in the longer term. In these circumstances, the Federal Reserve will employ all available tools to promote economic recovery and to preserve price stability. The committee will maintain the target range for the federal funds rate at 0 to one-quarter percent and anticipates that economic conditions are likely to warrant exceptionally low levels of the federal funds rate for an extended period. As previously announced, to provide support to mortgage lending and housing markets and to improve overall conditions in private credit markets, the Federal Reserve will purchase a total of up to $1.25 trillion of agency mortgage-backed securities and up to $200 billion of agency debt by the end of the year. In addition, the Federal Reserve will buy up to $300 billion of Treasury securities by autumn. The committee will continue to evaluate the timing and overall amounts of its purchases of securities in light of the evolving economic outlook and conditions in financial markets. The Federal Reserve is facilitating the extension of credit to households and businesses and supporting the functioning of financial markets through a range of liquidity programs. The committee will continue to carefully monitor the size and composition of the Federal Reserve’s balance sheet in light of financial and economic developments. Voting for the F.O.M.C. monetary policy action were: Ben S. Bernanke, chairman; William C. Dudley, vice chairman; Elizabeth A. Duke; Charles L. Evans; Donald L. Kohn; Jeffrey M. Lacker; Dennis P. Lockhart; Daniel K. Tarullo; Kevin M. Warsh; and Janet L. Yellen.

XBox forensics

Yep, I’m totally using this release’s title because it’s too perfect to change. Interesting insight into digital forensics and law enforcement.

From the link:

Toolkit reveals criminal activity on gaming consoles

A forensics toolkit for the Xbox gaming console is described by US researchers in the latest issue of the International Journal of Electronic Security and Digital Forensics. The toolkit could allow law enforcement agencies to scour the inbuilt hard disk of such devices and find illicit hidden materials easily.

Computer scientist David Collins has probably spent more time messing around with the Microsoft XBox, other gaming consoles, and PDAs in the name of forensic science than anyone else. He is a digital forensics expert at Sam Houston State University, and is working hard to replicate “mods” – both hardware and software for the Xbox and other devices.

Criminals often hide illicit data on the XBox in the hope that a gaming console will not be seen as a likely evidence target especially when conventional personal computers are present in the same premises, for instance. The toolkit developed by Collins will allow police and other investigators the chance to lay bare the contents of XBox hard disks.

Cell phones, smart phones, PDAs, game consoles and other devices provide a convenient means to store data of all kinds, including images, video, audio and text files. But they also provide a simple way for criminals to possess and hide illegal material too.

Collins’ XFT utility can mount an image of the FATX file system used by the XBox, allowing the user to explore in detail the directory structure. Collins points out that unlike the standard FAT32, NTFS, and similar systems used by the hard disks in personal computers, there is little documentation on the proprietary FATX system. However, it is possible nevertheless to acquire an image of a FATX hard disk and to mount it on another device.

“Once the Xbox file system is mounted, the analyst can use shell commands to browse the directory tree, open files, view files in hex editor mode, list the contents of the current directory in short or long mode and expand the current directory to list all associated subdirectories and files,” explains Collins.

Importantly, from the legal perspective, XFT can also record such investigative sessions for playback in a court of law, which protects the defendant from falsified as well as providing more solid evidence for the prosecution.

Collins explains how future work on XFT will involve making the toolkit into a fully functional forensic operating system (OS). This OS will be packaged as both a bootable operating system from a hard disk and a “live” bootable compact disk. “This implementation will be open source, verbosely commented and designed from the ground up as a forensic OS,” says Collins, “This will remove any and all proprietary operating system dependencies, making the forensic process as transparent as possible.”

 

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“XFT: a forensic toolkit for the original Xbox game Console” in Int. J. Electronic Security and Digital Forensics, 2009, 2, 199-205

Nanotubes seeing the rainbow

Nanotubes that can “see” the entire spectrum offer a lot of possibilities in terms of application, including improved solar cells.

The release:

Sandia researchers construct carbon nanotube device that can detect colors of the rainbow

LIVERMORE, Calif. — Researchers at Sandia National Laboratories have created the first carbon nanotube device that can detect the entire visible spectrum of light, a feat that could soon allow scientists to probe single molecule transformations, study how those molecules respond to light, observe how the molecules change shapes, and understand other fundamental interactions between molecules and nanotubes.

Carbon nanotubes are long thin cylinders composed entirely of carbon atoms. While their diameters are in the nanometer range (1-10), they can be very long, up to centimeters in length.

The carbon-carbon bond is very strong, making carbon nanotubes very robust and resistant to any kind of deformation. To construct a nanoscale color detector, Sandia researchers took inspiration from the human eye, and in a sense, improved on the model.

When light strikes the retina, it initiates a cascade of chemical and electrical impulses that ultimately trigger nerve impulses. In the nanoscale color detector, light strikes a chromophore and causes a conformational change in the molecule, which in turn causes a threshold shift on a transistor made from a single-walled carbon nanotube.

“In our eyes the neuron is in front of the retinal molecule, so the light has to transmit through the neuron to hit the molecule,” says Sandia researcher Xinjian Zhou. “We placed the nanotube transistor behind the molecule—a more efficient design.”

Zhou and his Sandia colleagues François Léonard, Andy Vance, Karen Krafcik, Tom Zifer, and Bryan Wong created the device. The team recently published a paper, “Color Detection Using Chromophore-Nanotube Hybrid Devices,” in the journal Nano Letters.

The idea of carbon nanotubes being light sensitive has been around for a long time, but earlier efforts using an individual nanotube were only able to detect light in narrow wavelength ranges at laser intensities. The Sandia team found that their nanodetector was orders of magnitude more sensitive, down to about 40 W/m2—about 3 percent of the density of sunshine reaching the ground. “Because the dye is so close to the nanotube, a little change turns into a big signal on the device,” says Zhou.

The research is in its second year of internal Sandia funding and is based on Léonard’s collaboration with the University of Wisconsin to explain the theoretical mechanism of carbon nanotube light detection. Léonard literally wrote the book on carbon nanotubes—The Physics of Carbon Nanotubes, published September 2008.

Léonard says the project draws upon Sandia’s expertise in both materials physics and materials chemistry. He and Wong laid the groundwork with their theoretical research, with Wong completing the first-principles calculations that supported the hypothesis of how the chromophores were arranged on the nanotubes and how the chromophore isomerizations affected electronic properties of the devices.

To construct the device, Zhou and Krafcik first had to create a tiny transistor made from a single carbon nanotube. They deposited carbon nanotubes on a silicon wafer and then used photolithography to define electrical patterns to make contacts.

The final piece came from Vance and Zifer, who synthesized molecules to create three types of chromophores that respond to either the red, green, or orange bands of the visible spectrum. Zhou immersed the wafer in the dye solution and waited a few minutes while the chromophores attached themselves to the nanotubes.

The team reached their goal of detecting visible light faster than they expected—they thought the entire first year of the project would be spent testing UV light. Now, they are looking to increase the efficiency by creating a device with multiple nanotubes.

“Detection is now limited to about 3 percent of sunlight, which isn’t bad compared with a commercially available digital camera,” says Zhou. “I hope to add some antennas to increase light absorption.”

A device made with multiple carbon nanotubes would be easier to construct and the resulting larger area would be more sensitive to light. A larger size is also more practical for applications.

Now, they are setting their sites on detecting infrared light. “We think this principle can be applied to infrared light and there is a lot of interest in infrared detection,” says Vance. “So we’re in the process of looking for dyes that work in infrared.”

This research eventually could be used for a number of exciting applications, such as an optical detector with nanometer scale resolution, ultra-tiny digital cameras, solar cells with more light absorption capability, or even genome sequencing. The near-term purpose, however, is basic science.

“A large part of why we are doing this is not to invent a photo detector, but to understand the processes involved in controlling carbon nanotube devices,” says Léonard.

The next step in the project is to create a nanometer-scale photovoltaic device. Such a device on a larger scale could be used as an unpowered photo detector or for solar energy. “Instead of monitoring current changes, we’d actually generate current,” says Vance. “We have an idea of how to do it, but it will be a more challenging fabrication process.”

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Sandia is a multiprogram laboratory operated by Sandia Corporation, a Lockheed Martin company, for the U.S. Department of Energy’s National Nuclear Security Administration. With main facilities in Albuquerque, N.M., and Livermore, Calif., Sandia has major R&D responsibilities in national security, energy and environmental technologies, and economic competitiveness.