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Warren J. Blumenfeld 《Journal of Classification》2011,28(1):6-6
Reviewers
Guest Reviewers, Journal of Classification Volume 28(1) 2011, Special Issue 相似文献2.
Blumenfeld I Clayton CE Decker FJ Hogan MJ Huang C Ischebeck R Iverson R Joshi C Katsouleas T Kirby N Lu W Marsh KA Mori WB Muggli P Oz E Siemann RH Walz D Zhou M 《Nature》2007,445(7129):741-744
The energy frontier of particle physics is several trillion electron volts, but colliders capable of reaching this regime (such as the Large Hadron Collider and the International Linear Collider) are costly and time-consuming to build; it is therefore important to explore new methods of accelerating particles to high energies. Plasma-based accelerators are particularly attractive because they are capable of producing accelerating fields that are orders of magnitude larger than those used in conventional colliders. In these accelerators, a drive beam (either laser or particle) produces a plasma wave (wakefield) that accelerates charged particles. The ultimate utility of plasma accelerators will depend on sustaining ultrahigh accelerating fields over a substantial length to achieve a significant energy gain. Here we show that an energy gain of more than 42 GeV is achieved in a plasma wakefield accelerator of 85 cm length, driven by a 42 GeV electron beam at the Stanford Linear Accelerator Center (SLAC). The results are in excellent agreement with the predictions of three-dimensional particle-in-cell simulations. Most of the beam electrons lose energy to the plasma wave, but some electrons in the back of the same beam pulse are accelerated with a field of approximately 52 GV m(-1). This effectively doubles their energy, producing the energy gain of the 3-km-long SLAC accelerator in less than a metre for a small fraction of the electrons in the injected bunch. This is an important step towards demonstrating the viability of plasma accelerators for high-energy physics applications. 相似文献
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Non-invasive prenatal measurement of the fetal genome 总被引:1,自引:0,他引:1
The vast majority of prenatal genetic testing requires invasive sampling. However, this poses a risk to the fetus, so one must make a decision that weighs the desire for genetic information against the risk of an adverse outcome due to hazards of the testing process. These issues are not required to be coupled, and it would be desirable to discover genetic information about the fetus without incurring a health risk. Here we demonstrate that it is possible to non-invasively sequence the entire prenatal genome. Our results show that molecular counting of parental haplotypes in maternal plasma by shotgun sequencing of maternal plasma DNA allows the inherited fetal genome to be deciphered non-invasively. We also applied the counting principle directly to each allele in the fetal exome by performing exome capture on maternal plasma DNA before shotgun sequencing. This approach enables non-invasive exome screening of clinically relevant and deleterious alleles that were paternally inherited or had arisen as de novo germline mutations, and complements the haplotype counting approach to provide a comprehensive view of the fetal genome. Non-invasive determination of the fetal genome may ultimately facilitate the diagnosis of all inherited and de novo genetic disease. 相似文献
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R. Rudnicki A. Blumenfeld M. J. Bukovac 《Cellular and molecular life sciences : CMLS》1973,29(2):231-231
Zusammenfassung In Keimen von Glycinensamen wurden unterschiedliche Reaktionen der Kulturvarianten (Cultivaren) zur Abscisinsäure (ABA) beobachtet. Die Unterschiede in Keimem können nicht der unterschiedlichen Wasser-oder ABA-Absorption zugeschrieben werden. 相似文献
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