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101.
Noble C. Woo Kunigunde Cherenack Gerhard Tr?ster Ralph Spolenak 《Applied Physics A: Materials Science & Processing》2010,100(1):281-285
Reducing the strain in brittle device layers is critical in the fabrication of robust flexible electronic devices. In this
study, the cracking behavior of micro-patterned 500-nm-thick Ti films was investigated via uniaxial tensile testing by in
situ SEM and 4-point probe measurements. Both visual observations by SEM and 4-pt resistance measurements showed that strategically
patterned oval holes, off-set and rotated by 45°, had a significant effect on limiting the extent of cracking, specifically,
in preventing cracks from converging. Failure with regard to electrical conduction was delayed from less than 2% to more than
10% strain. 相似文献
102.
Shyjumon Ibrahimkutty Daniel Issenmann Stefan Schleef Anke‐Susanne Müller Yves‐Laurent Mathis Biliana Gasharova Erhart Huttel Ralph Steininger Jörg Göttlicher Tilo Baumbach Albrecht Bartels Christof Janke Anton Plech 《Journal of synchrotron radiation》2011,18(4):539-545
A high‐repetition‐rate pump–probe experiment is presented, based on the asynchronous sampling approach. The low‐α mode at the synchrotron ANKA can be used for a time resolution down to the picosecond limit for the time‐domain sampling of the coherent THz emission as well as for hard X‐ray pump–probe experiments, which probe structural dynamics in the condensed phase. It is shown that a synchronization of better than 1 ps is achieved, and examples of phonon dynamics of semiconductors are presented. 相似文献
103.
104.
Christopher J. Morris Brian Mary Sara Barron Omar Knio Ralph Hodgin Chadd May 《Journal of Physics and Chemistry of Solids》2010,71(2):84-1650
Research into nanoenergetic materials is enabling new capabilities for controlling exothermic reaction rates and energy output, as well as new methods for integrating these materials with conventional electronics fabrication techniques. Many reactions produce primarily heat, and in some cases it is desirable to increase the rate of heat release beyond what is typically observed. Here we investigate the Al-Ni intermetallic reaction, which normally propagates across films or foils at rates lower than 10 m/s. However, models and experiments indicate that local heating rates can be very high (107 K/s), and uniform heating of such a multilayer film can lead to a rapid, thermally explosive type of reaction. With the hopes of using a device to transduce electrical energy to kinetic energy of a flyer plate in the timescale of 100's of nanoseconds, we have incorporated a Ni/Al nanolayer film that locally heats upon application of a large electrical current. We observed flyer plate velocities in the 2-6 km/s range, corresponding to 4-36 kJ/g in terms of specific kinetic energy. Several samples containing Ni/Al films with different bilayer thicknesses were tested, and many produced additional kinetic energy in the 1.1-2.3 kJ/g range, as would be expected from the Ni-Al intermetallic reaction. These results provide evidence that nanoscale Ni/Al layers reacted in the timescale necessary to contribute to device output. 相似文献
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106.
Nanotechnology, as with many technologies before it, places a strain on existing legislation and poses a challenge to all
administrative agencies tasked with regulating technology-based products. It is easy to see how statutory schemes become outdated,
as our ability to understand and affect the world progresses. In this article, we address the regulatory problems that nanotechnology
posses for the Food and Drug Administration’s (FDA) classification structure for “drugs” and “devices.” The last major modification
to these terms was in 1976, with the enactment of the Medical Device Amendments. There are serious practical differences for
a classification as a drug or device in terms of time to market and research. Drugs are classified, primarily, as acting by
“chemical action.” We lay out some legal, philosophic, and scientific tools that serve to provide a useful, as well as legally
and scientifically faithful, distinction between drugs and devices for the purpose of regulatory classification. These issues
we raise are worth the consideration of anyone who is interested in the regulation of nano-products or other novel technologies. 相似文献
107.
Ralph Chill Eva Fasangová 《Proceedings of the American Mathematical Society》2002,130(3):675-681
We show that a new notion of a spectrum of a function ( is a Banach space), defined by B. Basit and the first author, coincides with the Arveson spectrum of some shift group, provided is uniformly continuous. We apply this result to prove a new version of a tauberian theorem. 相似文献
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We demonstrate that secure quantum key distribution systems based on continuous variable implementations can operate beyond the apparent 3 dB loss limit that is implied by the beam splitting attack. The loss limit was established for standard minimum uncertainty states such as coherent states. We show that, by an appropriate postselection mechanism, we can enter a region where Eve's knowledge on Alice's key falls behind the information shared between Alice and Bob, even in the presence of substantial losses. 相似文献