Dual Amplitude Research Articles

On the Interplay between Q2 and t Dependences in Exclusive Diffractive Production of Real Photons and Vector Mesons in ep Collisions

We show how the familiar phenomenological way of combining the Q2 (photon virtuality) and t (squared momentum transfer) dependences of the scattering amplitude in Deeply Virtual Compton Scattering (DVCS) [1, 2] and Vector Meson Production (VMP) [2] processes can be understood in an off-mass-shell generalization of dual amplitudes with Mandelstam analyticity [3]. By comparingdifferent approaches, we managed also to constrain the numerical values of the free parameters.

EXPLICIT MODEL REALIZING PARTON–HADRON DUALITY

We present a model that realizes both resonance-Regge (Veneziano) and parton–hadron (Bloom–Gilman) duality. We first review the features of the Veneziano model and we discuss how parton–hadron duality appears in the Bloom–Gilman model. Then we review limitations of the Veneziano model, namely that the zero-width resonances in the Veneziano model violate unitarity and Mandelstam analyticity. We discuss how such problems are alleviated in models that construct dual amplitudes with Mandelstam analyticity (so-called DAMA models). We then introduce a modified DAMA model, and we discuss its properties. We present a pedagogical model for dual amplitudes and we construct the nucleon structure function F2(x, Q2). We explicitly show that the resulting structure function realizes both Veneziano and Bloom–Gilman duality.

Saccadic inhibition is accompanied by large and complex amplitude modulations when induced by visual backward masking

Saccadic inhibition refers to the strong temporary decrease in saccadic initiation observed when a visual distractor appears shortly after the onset of a saccadic target. Here, to gain a better understanding of this phenomenon, we assessed whether saccade amplitude changes could accompany these modulations of latency distributions. As previous studies on the saccadic system using visual backward masking--a protocol in which the mask appears shortly after the target--showed latency increases and amplitude changes, we suspected that this could be a condition in which amplitude changes would accompany saccadic inhibition. We show here that visual backward masking produces a strong saccadic inhibition. In addition, this saccadic inhibition was accompanied by large and complex amplitude changes: a first phase of gain decrease occurred before the saccadic inhibition; when saccades reappeared after the inhibition, they were accurate before rapidly entering into a second phase of gain decrease. We observed changes in saccade kinematics that were consistent with the possibility of saccades being interrupted during these two phases of gain decrease. These results show that the onset of a large stimulus shortly after a first one induces the previously reported saccadic inhibition, but also induces a complex pattern of amplitude changes resulting from a dual amplitude perturbation mechanism with fast and slow components.

Dual reading tracking-type amplitude angle digitizer based on series 2602 hybrid microassemblies

Results of the development of precision tracking-type dual reading amplitude angle digitizers based on series 2602 hybrid microassemblies are presented. The structures of such correctable converters, which are distinguished in terms of the algorithms used to generate the voltages and which neutralize the adverse effect of the quasisinusoidality of physical fine-reading angle digitizers on the ultimate conversion error, are considered.

Twistor space observables and quasi-amplitudes in 4D higher-spin gravity

Vasiliev equations facilitate globally defined formulations of higher-spin gravity in various correspondence spaces associated with different phases of the theory. In the four-dimensional case this induces a map from a generally covariant formulation in spacetime with higher-derivative interactions to a formulation in terms of a deformed symplectic structure on a noncommutative doubled twistor space, sending spacetime boundary conditions to various sectors of an associative star-product algebra. We look at observables given by integrals over twistor space defining composite zero-forms in spacetime that do not break any local symmetries and that are closed on shell. They can be evaluated locally in spacetime and interpreted as building blocks for dual amplitudes. To regularize potential twistor-space divergencies arising in their curvature expansion, we propose a closed-contour prescription that respects associativity and hence higher-spin gauge symmetry. As a sample calculation, we examine next-to-leading corrections to quasi-amplitudes for twistor-space plane waves, and find cancellations that we interpret using transgression properties in twistor space.

光通信中双幅度脉冲位置调制的功率谱分析

光通信中双幅度脉冲位置调制的功率谱分析

光通信中双幅度脉冲位置调制的功率谱分析

光通信中双幅度脉冲位置调制的功率谱分析

光通信中双幅度脉冲位置调制的功率谱分析

光通信中双幅度脉冲位置调制的功率谱分析

ExclusiveJ/Ψelectroproduction in a dual model

Exclusive $J/\ensuremath{\Psi}$ electroproduction is studied in the framework of the analytic $S$-matrix theory. The differential and integrated elastic cross sections are calculated using the modified dual amplitude with Mandelstam analyticity model. The model is applied to the description of the available experimental data and proves to be valid in a wide region of the kinematical variables $s$, $t$, and ${Q}^{2}$. Our amplitude can be used also as a universal background parametrization for the extraction of tiny resonance signals.

Dual analytic model of generalized parton distributions

A model for generalized parton distributions (GPDs) in the form of ∼(x/g0)(1−x)ᾶ(t), where ᾶ(t) = α(t) − α(0) is the nonlinear part of the Regge trajectory and g0 is a parameter, g0 > 1, is presented. For linear trajectories, it reduces to earlier proposals. We compare the calculated moments of these GPDs with the experimental data on form factors and find that the effects from the nonlinearity of Regge trajectories are large. By Fourier transforming the obtained GPDs, we access the spatial distribution of protons in the transverse plane. The relation between dual amplitudes with Mandelstam analyticity and composite models in the infinite-momentum frame is discussed, the integration variable in dual models being associated with the quark longitudinal-momentum fraction x in the nucleon.

Dual computations of non-Abelian Yang-Mills theories on the lattice

In the past several decades there have been a number of proposals for computing with dual forms of non-Abelian Yang-Mills theories on the lattice. Motivated by the gauge-invariant, geometric picture offered by dual models and successful applications of duality in the U(1) case, we revisit the question of whether it is practical to perform numerical computation using non-Abelian dual models. Specifically, we consider three-dimensional SU(2) pure Yang-Mills as an accessible yet nontrivial case in which the gauge group is non-Abelian. Using methods developed recently in the context of spin foam quantum gravity, we derive an algorithm for efficiently computing the dual amplitude and describe Metropolis moves for sampling the dual ensemble. We relate our algorithms to prior work in non-Abelian dual computations of Hari Dass and his collaborators, addressing several problems that have been left open. We report results of spin expectation value computations over a range of lattice sizes and couplings that are in agreement with our conventional lattice computations. We conclude with an outlook on further development of dual methods and their application to problems of current interest.

DiffractiveJ/ψphotoproduction in a dual model

J/{psi} photoproduction is studied in the framework of the analytic S-matrix theory. The differential and integrated elastic cross sections for J/{psi} photoproduction are calculated from a dual amplitude with Mandelstam analyticity. It is argued that, at low energies, the background, which is the low-energy equivalent of the high-energy diffraction, replaces the Pomeron exchange. The onset of the high-energy Pomeron dominance is estimated from the fits to the data.

Cluster duality

It is well known that the linear mass spectrum of light mesons in the large- N c limit is dual to the perturbative QCD continuum. We find the form of the linear spectrum which is maximally dual to the perturbation theory. The obtained ansatz turns out to be the spectrum of the Lovelace–Shapiro dual amplitude. This spectrum is chirally symmetric in the sense that it corresponds to zero values for the order parameters of chiral symmetry breaking in QCD. We further assume that the actual spectrum is dual to the maximally dual one within the QCD sum rules based on OPE and in this way recover some known important relations and statements. The experimental spectrum seems to support the assumed duality: The masses of resonances cluster near certain equidistant values of energy squared and the positions of clustering follow the maximally dual ansatz. The latter fact signals the chiral symmetry restoration in the excited states. We discuss also two topics of recent interest: nonlinear corrections to the string-like spectrum and the dimension-two gluon condensate.

Dual Orthogonal Polarization States in an Active Mode-Locked Birefringent Fiber Ring Laser

We report the generation of dual amplitude pulses in an active mode-locked fiber laser within a birefringent cavity. Different to normal mode-locked pulses with identical amplitude and polarization state, and pulses polarized on both x- and y-axes simultaneously exist in the output pulse train. The two orthogonal pulse sequences have different amplitudes and lase at different wavelengths. Dual wavelengths are the result of red shift and blue shift of the x- and y-polarization states of the generated pulses, respectively, due to the detuning phenomena. Locking to individual x- or y-polarized pulse is also obtained by adjusting polarization controllers

Duality, analyticity, andtdependence of generalized parton distributions

Basing upon dual analytic models, we present arguments in favor of the parametrization of generalized parton distributions (GPD) in the form $\ensuremath{\sim}(x/{g}_{0}{)}^{(1\ensuremath{-}x)\stackrel{\texttildelow{}}{\ensuremath{\alpha}}(t)}$, where $\stackrel{\texttildelow{}}{\ensuremath{\alpha}}(t)=\ensuremath{\alpha}(t)\ensuremath{-}\ensuremath{\alpha}(0)$ is the nonlinear part of the Regge trajectory and ${g}_{0}$ is a parameter. For linear trajectories it reduces to earlier proposals. We compare the calculated moments of these GPD with the experimental data on form factors and find that the effects from the nonlinearity of Regge trajectories are large. By Fourier-transforming the obtained GPD, we access the spatial distribution of protons in the transverse plane. The relation between dual amplitudes with Mandelstam analyticity and composite models in the infinite-momentum frame is discussed, the integration variable in dual models being associated with the quark longitudinal momentum fraction $x$ in the nucleon.

Off-mass-shell dual amplitude with Mandelstam analyticity

A model for the Q 2-dependent dual amplitude with Mandelstam analyticity (DAMA) is proposed. The modified DAMA (M-DAMA) preserves all the attractive properties of DAMA, such as its pole structure and Regge asymptotics, and leads to a generalized dual amplitude A(s, t, Q 2). This generalized amplitude can be checked in the known kinematical limits; i.e., it should reduce to the ordinary dual amplitude on mass shell and to the nuclear structure function when t = 0. In such a way, we complete a unified “two-dimensionally dual” picture of strong interaction. By comparing the structure function F 2, resulting from M-DAMA, with phenomenological parametrizations, we fix the Q 2 dependence in M-DAMA. In all studied regions, i.e., in the large-and low-x limits as well as in the resonance region, the results of M-DAMA are in qualitative agreement with the experiment.

Wide Viewing Angle and Fast Responding TN LCD

A new type of TN display device has been fabricated by sandwiching a dual frequency addressable nematic liquid crystal material between two unrubbed polyimide coated glass plates. Between crossed polarizers, the bright state is observed by applying a high frequency electric field, while the dark state by applying a low frequency electric field of similar strength. This dual frequency addressed rubbing free device shows very wide and highly symmetric viewing angle characteristics, with contrast ratio comparable to that of a rubbed TN device, and with very fast response time. Addressing the device in a “dual frequency dual amplitude pulsed mode” leads to only a small increase (∼1.5 times) in power consumption in comparison with the conventional single frequency addressed device.

Bunji Sakita

Bunji Sakita, whose research helped form the foundation of string theory and who made seminal contributions to the quark model, died on 31 August 2002 in Tokyo after a yearlong battle with cancer. Sakita was born in the Toyama prefecture of Japan in 1930. He attended Kanazawa University, where he received his bachelor’s degree in physics in 1953. He pursued graduate work with Shoichi Sakata’s group at Nagoya University, where he earned his master’s degree in physics in 1956. He then traveled to the US to study at the University of Rochester; he was among a select group of Japanese students that Robert Marshak had recruited to study at the university. There, under the guidance of Charles Goebel, Sakita received his PhD in physics in 1959.That same year, he became a research associate in the physics department of the University of Wisconsin—Madison. He was named an assistant professor in 1962 and remained in that position for two years. During those early years of his career, he developed the SU(6) symmetry of the nonrelativistic quark model, which generalized Eugene Wigner’s supermultiplet symmetry of combining spin and isospin. Sakita then joined the high-energy physics division of Argonne National Laboratory but returned to Wisconsin in 1966 to take the post of professor of physics. During a visit to Israel in 1967, Sakita learned of the work of Gabriele Veneziano. Sakita subsequently devoted his later work at Wisconsin to what would become the dual resonance model and, later, string theory. With Goebel, he obtained the many-particle generalization of the Veneziano amplitude. With Keiji Kikkawa, Miguel Virasoro, and others, he addressed the problem of unitarity of the dual amplitudes and set up the formalism of dual diagrams, which were analogous to Feynman diagrams, for the computation of loop amplitudes. Sakita then collaborated with C. S. Hsue, Virasoro, and Jean-Loup Gervais to develop the functional formalism for those calculations in which summation over Riemann surfaces naturally emerged.In their paper “Field Theory Interpretation of Supergauges in Dual Models,” published in Nuclear Physics in 1971, Gervais and Sakita described the first supersymmetric action in the framework of world sheet string theory. Their work inspired Julius Wess and Bruno Zumino to extend supersymmetry to four-dimensional field theory. (A different version of super-symmetry had been developed in the former Soviet Union a little earlier.) Sakita’s papers during the 1970–71 period reflect the origins of the modern formulation of string perturbation theory as sums over Riemann surfaces. He also planted the seeds of another key idea of string theory: con-formal field theory. When Marshak became president of the City College of New York in 1970, Sakita took a position there as a distinguished professor so that he could participate in the rapid expansion of the physics program and head the high-energy group. Through Sakita’s leadership, the group did first-rate work in string theory, supersymmetry, field theory, and particle phenomenology. Having been greatly influenced since his student days by the method of collective variables in many-body theory, Sakita continued the theme of collective motions throughout the remainder of his career. With his students Gustavo Branco and Paul Senjanovic, he worked on collective dynamics in the strong coupling theory of meson—nucleon physics in the path integral approach. He extended that work, with Gervais, to relativistic field theory with solitons. And in 1975, he and one of us (Jevicki) developed the full perturbation theory and the general formalism of collective coordinates.Sakita’s several other collaborations produced interesting research. With one of us (Wadia, who was his student), together with Gervais, Sakita achieved extensions to gauge theories. During the late 1970s, Sakita and Jevicki applied the collective field method to the large-N limit of matrix models (in which it has become part of the standard lore). Sakita also worked with Jorge Alfaro to apply the method of stochastic quantization to large-N theories. He made significant contributions to condensed matter systems through his work on exhibiting the role of W symmetry.An exceptional mentor, Sakita treated his students as his equals. He had numerous collaborators and students worldwide. In recognition of his many contributions, he was named a Guggenheim Fellow in 1970 and, in 1974, received the Nishina Memorial Foundation’s Nishina Memorial Prize of Japan.Sakita’s interests were broad and varied; he sought out the fundamental physical basis of any problem. He had a true measure of himself, both as a person and as a physicist, which translated into a sense of humility and generosity. Sakita also possessed an unobtrusive yet direct way of speaking. His opinion, on matters of physics and nonphysics, was highly valued. He is sorely missed. Bunji Sakita PPT|High resolution© 2003 American Institute of Physics.

Design Aspects of a Millimeter Wave Scintillometer for Flux Measurements

The design aspects of a millimeter wave scintillometer system are described in detail. The dual amplitude channel receiver technique helps to eliminate errors common to both channels, mainly the atmospheric absorption effect. Several features to make the system mechanically stable and weather proof, such as double insulation to the receiver and transmitter components, are Included. Experimental results showed that this system is reliable. This system, together with two other scintillometers at different wavelengths, can be used for measuring heat, humidity, and momentum fluxes.

Fatigue crack growth life predictions for single and dual amplitude loadings : Claridge, S.P. and Powell, B.E. Computational Methods Testing Eng. Integrity (1996) 85–94 Conference: First International Conference on Computational Methods and Testing for Engineering Integrity, Kuala Lumpur, Malaysia (19–21. Mar. 1996)

Chronic fatigue and chronic fatigue syndrome (CFS) have become increasingly recognized as a common clinical problem, yet one that physicians often find difficult to manage. In this review we suggest a practical, pragmatic, evidence-based approach to the assessment and initial management of the patient whose presentation suggests this diagnosis. The basic principles are simple and for each aspect of management we point out both potential pitfalls and strategies to overcome them. The first, and most important task is to develop mutual trust and collaboration. The second is to complete an adequate assessment, the aim of which is either to make a diagnosis of CFS or to identify an alternative cause for the patient's symptoms. The history is most important and should include a detailed account of the symptoms, the associated disability, the choice of coping strategies, and importantly, the patient's own understanding of his/her illness. The assessment of possible comorbid psychiatric disorders such as depression or anxiety is mandatory. When the physician is satisfied that no alternative physical or psychiatric disorder can be found to explain symptoms, we suggest that a firm and positive diagnosis of CFS be made. The treatment of CFS requires that the patient is given a positive explanation of the cause of his symptoms, emphasizing the distinction among factors that may have predisposed them to develop the illness (lifestyle, work stress, personality), triggered the illness (viral infection, life events) and perpetuated the illness (cerebral dysfunction, sleep disorder, depression, inconsistent activity, and misunderstanding of the illness and fear of making it worse). Interventions are then aimed to overcoming these illness-perpetuating factors. The role of antidepressants remains uncertain but may be tried on a pragmatic basis. Other medications should be avoided. The only treatment strategies of proven efficacy are cognitive behavioral ones. The most important starting point is to promote a consistent pattern of activity, rest, and sleep, followed by a gradual return to normal activity; ongoing review of any ‘catastrophic’ misinterpretation of symptoms and the problem solving of current life difficulties. We regard chronic fatigue syndrome as important not only because it represents potentially treatable disability and suffering but also because it provides an example for the positive management of medically unexplained illness in general.