106,728 research outputs found
Letter, Seth Barton, New York, to Thomas Ritchie, Washington City
"John Hampden" article in the Union; that article's influence over the French population in Louisiana; mention of Emile LaSere and Peter K. Wagner. From Mss. 65 R51, folder 657, series 2, Ritchie-Harrison Papers, Special Collections Research Center, Swem Library, College of William and Mary
Ritchie, K D, NX11086
This record was harvested from a previous catalogue system and will be withdrawn in 2025. Information in this record may be superseded or incomplete. Visit this record in UMA's new catalogue at: https://archives.library.unimelb.edu.au/nodes/view/413462Surname: RITCHIE. Given Name(s) or Initials: K D. Military Service Number or Last Known Location: NX11086. Missing, Wounded and Prisoner of War Enquiry Card Index Number: 5860.232172
Item: [2016.0049.45723] "Ritchie, K D, NX11086
Joshua Davis: Author of Spare Parts
Citation: K-State First (2016). Joshua Davis: Author of Spare Parts [Flier]. Manhattan, Kansas: K-State First.Flyer advertising Joshua Davis's author talk at Kansas State University
Steven Johnson Author Talk Poster
K-State Book NetworkA poster advertising an author talk by Steven Johnson at Kansas State University on September 3, 2014. Steven Johnson's book "The Ghost Map" was the 2014-2015 common book
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Rare k-decays
This article reviews the current situation in the field of rare K decays: the relevant phenomenology, the present experimental situation, and prospects for the near future. Study of rare K decays can make a significant contribution in a number of different frontier areas of research in high-energy physics. In the area of CP violation, study of such rare decays as K(L)0 --> pi0e+e-, K(L)0 --> pi0mu+mu-, K(L)0 --> pi0nunuBAR, and muon polarization in K(L)0 --> mu+mu- can provide important complementary information to what has been learned from the decay K(L)0 --> pipi. Even though experiments with sufficient accuracy to make a meaningful study of CP violation are still a few years away, significant progress has been made in this general area during the last decade. A second major area of interest in the field of rare K decays is the search for processes forbidden in the Standard Model, e.g., K(L)0 --> mue and K+ --> pi+mu+e-. Various extensions of the Standard Model predict that these processes will occur with branching fractions in the range of 10(-10) to 10(-15). Experiments of the last decade have pushed the limits into the 10(-10) to 10(-11) range, and further improvements in sensitivity of one to two orders of magnitude can be expected in the next few years. K decays allow one also to study higher-order weak-interaction processes such as K(L)0 --> mu+mu-, K(L)0 --> e+e-, K+ --> pi+nunuBAR, which are forbidden to first order in the Standard Model. Because of strong suppression, these decay modes offer potential windows on new physics; in addition, they may offer the most reliable measurement of V(td), one of the elements of the weak mixing matrix in the quark sector. The studies of the mu+mu- channel have achieved data samples of close to 1000 events; the other two modes should be observed for the first time in the next few years. Finally, as a byproduct of these studies, one has been able to look simultaneously for new light particles into which the K meson could decay. Limits obtained for various hypothetical particles are summarized.Physic
Integrin involvement in Glioblastoma Multiforme: Possible regulation by NF-kappa B
Glioblastoma multiforme (GBM) is the most malignant astroglial-derived tumors which has the propensity to aggressively infiltrate normal regions of the brain surrounding the tumor. The interaction of tumor cells with the extracellular matrix (ECM) is an integral step in the process of tumorigenesis and may play a role in the local invasion of the GBM cells. Our study investigated the role of the nuclear transcription factor NF-kappaB on GBM integrin expression and cell attachment. Our results show that treatment of GBM cell lines, SNB-19 and T98G with PMA, an inducer of NF-kappaB, increased the expression of fibronectin and vitronectin genes. Accordingly, ectopic over-expression of NFkappaB subunits in GBM cells elevated the levels of fibronectin gene expression, providing direct evidence for a regulatory role for NF-kappaB in ECM protein production. Cell attachment to the ECM proteins including fibronectin, vitronectin and laminin was increased in GBM and normal astrocytic cells. Interestingly, treatment of cells with PMA augmented attachment of SNB-19 and T98G cells to fibronectin and vitronectin, however it had no effect on attachment of normal astrocytes. Addition of the tripeptide arginine-glycine-asparatic acid (RGD), the recognition site for many integrins, significantly inhibited SNB-19 and T98G cell attachment to fibronectin and vitronectin. Finally, activation of NFkappaB upon treatment of SNB cells with PMA led to an increase in the levels of mRNA for the beta3 and the alphav integrin subunits. Collectively, these data demonstrate a possible role for NF-kappaB in glioma cell attachment
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Solid-state photonic interfaces using semiconductor quantum dots
New technologies based on the properties of quantum mechanics promise
to revolutionise the way information is processed by outperforming what is
possible using classical devices. Examples include massively parallel processing
using quantum computers, verifiably secure communication using quantum
cryptography, and measurement with sensitivity beyond classical limitation
with quantum metrology. Realising the full potential of these technologies
necessitates the ability to communicate quantum information over large
distances, a key requirement for future quantum networks. However, developing
practical implementations of long-distance quantum communication
is challenging as it necessitates three major ingredients: light-matter interfaces,
elementary quantum operations, and quantum memories. This thesis
describes work that has been undertaken to address these requirements using
semiconductor nanotechnology.
We have first demonstrated that single InAs quantum dots embedded inside
conventional diode structures constitute high-fidelity controllable interfaces
between optical qubits and solid-state qubits. Indeed, the polarisation
state of a photon was transferred into the spin state of an electron-hole pair
and eventually restored through radiative recombination of the electron and
the hole with a fidelity up to 95%. Moreover, spins were manipulated using
subnanosecond modulation of a vertical electric field applied to the quantum
dots. By controlling this electrical modulation, we demonstrated elementary
phase-shift and spin-flip gate operations with near-unity fidelities.
An electron-hole pair confi ned in a single quantum dot has a short radiative
lifetime limiting therefore its use as an excitonic quantum memory.
The solution we proposed was to use a quantum dot molecule to control the
spatial separation of the electron and the hole and therefore prevent their
recombination. Comprehensive studies of electric field eff ects upon the photoluminescence
of quantum dot molecules lead to a clear understanding and
a good control over their physical properties. Single photons were stored in
individual quantum dot molecules up to 1μs and read out on a subnanosecond time scale. Moreover, the circular polarisation of individual photons was
transferred into the spin state of electron-hole pairs with a fidelity above
90%, which does not degrade for storage times up to the 12.5 ns repetition
period of the experiment.
Our work on single quantum dots could be extended in the near future to
allow for two-qubits quantum operations by con fining a second electron-hole
pair to be electrically manipulated. Storage of a superposition of spin states
in a quantum dot molecule should also be possible if the spin states are made
degenerate, which is feasible using the electric fi eld dependence of the energy
splitting between the spin states discussed in this thesis. We believe that
combining both approaches will lead to the development of a controllable
multi-qubit quantum memory for polarised light, a building block for long distance
quantum communication based on semiconductor nanotechnology
Hard disk drive production in Southeast Asia
Available in PDF from the MIT Japan Program Website."Date of publication: June 20, 2001"--T.p. verso. "MIT International Science and Technology Initiatives"--Cover.Includes bibliographical references (p. 32-36).Rick Doner [and] Bryan Ritchie
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