737 research outputs found

    Description of Gluon Propagation in the Presence of an A^2 Condensate

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    There is a good deal of current interest in the condensate A^2 which has been seen to play an important role in calculations which make use of the operator product expansion. That development has led to the publication of a large number of papers which discuss how that condensate could play a role in a gauge-invariant formulation. In the present work we consider gluon propagation in the presence of such a condensate which we assume to be present in the vacuum. We show that the gluon propagator has no on-mass-shell pole and, therefore, a gluon cannot propagate over extended distances. That is, the gluon is a nonpropagating mode in the gluon condensate. In the present work we discuss the properties of both the Euclidean-space and Minkowski-space gluon propagator. In the case of the Euclidean-space propagator we can make contact with the results of QCD lattice calculations of the propagator in the Landau gauge. With an appropriate choice of normalization constants, we present a unified representation of the gluon propagator that describes both the Minkowski-space and Euclidean-space dynamics in which the A^2 condensate plays an important role.Comment: 28 pages, 11 figure

    Proton Spin Structure from Measurable Parton Distributions

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    We present a systematic study of the proton spin structure in terms of measurable parton distributions. For a transversely-polarizedproton, we derive a polarization sum rule from the leading generalized parton distributions appearing in hard exclusive processes. For a longitudinally-polarized proton, we obtain a helicity decomposition from well-known quark and gluon helicity distributions and orbital angular-momentum contributions. The latter is shown to be related to measurable subleading generalized parton distributions and quantum-phase space Wigner distributions.Comment: 7 pages, title change

    Probing Parton Orbital Angular Momentum in Longitudinally Polarized Nucleon

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    While the total orbital angular momentum (OAM) of a definite quark flavor in a longitudinally-polarized nucleon can be obtained through a sum rule involving twist-two generalized parton distribution (GPDs), its distribution as a function of parton momentum in light-front coordinates is more complicated to define and measure because it involves intrinsically twist-three effects. In this paper, we consider two different parton OAM distributions. The first is manifestly gauge invariant, and its moments are local operators and calculable in lattice QCD. We show that it can potentially be measured through twist-three GPDs. The second is the much-debated canonical OAM distribution natural in free-field theory and light-cone gauge. We show the latter in light-cone gauge can also be related to twist-three GPDs as well as quantum phase-space Wigner distributions, both being measurable in high-energy experiments.Comment: 14 pages, no figur

    Constraining Right-Handed Scale Through Kaon Mixing in SUSY Left-Right Model

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    We study flavor-changing neutral current and CP violations in the minimal supersymmetric left-right model. We calculate the beyond-standard-model contributions to the neutral kaon mixing ΔMK\Delta M_K and ϵ\epsilon, and find possible to have a numerical cancelation between the contributions from the right-handed gauge boson and supersymmetric box diagram. With the cancelation, the right-handed WW-boson mass scale can be lowered to about 2 TeV, well within the search limit of LHC.Comment: 12 pages, new figures adde

    Gas−Surface Chemical Reactions at High Collision Energies?

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    Most gas−surface chemical reactions occur via reaction of adsorbed species to form a thermal-energy (kT) product; however, some instances exist where an energetic projectile directly reacts with an adsorbate in a single-collision event to form a hyperthermal product (with a kinetic energy of a few eV). Here we show for the first time that 30−300 eV F^+ bombardment of fluorinated Ag and Si surfaces produces “ultrafast” F_2^− products with exit energies of up to 90 eV via a multistep direct-reaction mechanism. Experiments conclusively show that the projectile F atom ends up in the fast molecular product despite the fact that the impact energy is far greater than typical bond energies

    On Newman-Penrose constants of stationary electrovacuum spacetimes

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    A theorem related to the Newman-Penrose constants is proven. The theorem states that all the Newman-Penrose constants of asymptotically flat, stationary, asymptotically algebraically special electrovacuum spacetimes are zero. Straightforward application of this theorem shows that all the Newman-Penrose constants of the Kerr-Newman spacetime must vanish.Comment: 11pages, no figures accepted by PR

    Threshold Resummation for Higgs Production in Effective Field Theory

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    We present an effective field theory to resum the large double logarithms originated from soft-gluon radiations at small final-state hadron invariant masses in Higgs and vector boson (\gamma^*, WW and ZZ) production at hadron colliders. The approach is conceptually simple, indepaendent of details of an effective field theory formulation, and valid to all orders in sub-leading logarithms. As an example, we show the result of summing the next-to-next-to-next leading logarithms is identical to that of standard pQCD factorization method.Comment: A version to appear in Phys. Rev.

    Next-to-leading order QCD predictions for graviton and photon associated production in the Large Extra Dimensions model at the LHC

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    We present the calculations of the complete next-to-leading order(NLO) QCD corrections to the inclusive total cross sections for the Kaluza-Klein(KK) graviton and photon associated production process ppγGKK+Xpp \to \gamma G_{KK} + X in the large extra dimensions(LED) model at the LHC. We show that the NLO QCD corrections in general enhance the total cross sections and reduce the dependence of the total cross sections on the factorization and renormalization scales. When jet veto is considered, the NLO corrections reduce the total cross sections. We also calculate some important differential cross sections for this process at NLO: the missing transverse momentum distribution, the transverse momentum distribution and the pseudorapidity distribution of photon.Comment: 28 pages, 14 figures; minor changes, version published in Phys.Rev.

    Gluon Fusion induced Zg and Zgg Productions in the Standard Model at the LHC

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    We report calculations of the gluon induced Zg and Zgg productions in the Standard Model at the LHC operating at both 7 TeV and 14 TeV collision energy. We present total cross sections and differential distributions of the processes and compare them with the leading and next-to-leading order QCD pp -> Z+1 jet, Z+2 jets results. Our results show that the gluon induced Zg and Zgg productions contribute to pp -> Z+1 jet, Z+2 jets at 1% level.Comment: 8 pages, 5 figure

    Blasts-more than meets the eye: Evaluation of post-induction day 21 bone marrow in CBFB rearranged acute leukemia

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    Induction chemotherapy is often the first therapeutic intervention for acute myeloid leukemia (AML). Evaluation of post induction bone marrow provides critical information for clinical management; in general increased blast countsor increased marrow cellularity is an ominous sign, suggestive of ineffective therapy, and may warrant additional rounds of chemotherapy. However, increased blasts alone are not necessarily predictive of recurrent/persistent disease. Here we report a very unusual observation in a case of AML with a core binding factor beta (CBFB) rearrangement. In this case the day 21 post-induction marrow biopsy showed a high blast count (approximately 20%), however,subsequent fluorescence in-situ hybridization studies were negative for CBFB rearrangement. We compared this finding to post-induction marrows from a series of 6 AML cases with CBFB rearrangements, none of which showed an increased blast count. This case illustrates that increased blast counts, even those comprising 20% of cells, are not de facto evidence of induction failure, and that correlation with ancillary studies such as fluorescence in-situhybridization should be used to distinguish a persistent neoplastic clone, from a brisk marrow recovery
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