Your search keyword '"K.W. Krygier"' showing total 8 results

1. A measurement of the axial form factor of the nucleon by the p(e,e′π+)n reaction at

Author

A. Liesenfeld, A.W. Richter, S. Širca, K.I. Blomqvist, W.U. Boeglin, K. Bohinc, R. Böhm, M. Distler, D. Drechsel, R. Edelhoff, I. Ewald, J. Friedrich, J.M. Friedrich, R. Geiges, M. Kahrau, M. Korn, K.W. Krygier, V. Kunde, H. Merkel, K. Merle, U. Müller, R. Neuhausen, T. Pospischil, M. Potokar, A. Rokavec, G. Rosner, P. Sauer, S. Schardt, H. Schmieden, L. Tiator, B. Vodenik, A. Wagner, Th. Walcher, and S. Wolf

Subjects

Nuclear physics, Physics, Nuclear and High Energy Physics, Transverse plane, Chiral perturbation theory, Form factor (quantum field theory), Pi, High Energy Physics::Experiment, Invariant mass, Nuclear Experiment, Nucleon, Microtron, Neutrino scattering

Abstract

The reaction p(e,e'pi+)n was measured at the Mainz Microtron MAMI at an invariant mass of W=1125 MeV and four-momentum transfers of Q^2=0.117, 0.195 and 0.273 (GeV/c)^2. For each value of Q^2, a Rosenbluth separation of the transverse and longitudinal cross sections was performed. An effective Lagrangian model was used to extract the `axial mass' from experimental data. We find a value of M_A=(1.077+-0.039) GeV which is (0.051+-0.044) GeV larger than the axial mass known from neutrino scattering experiments. This is consistent with recent calculations in chiral perturbation theory.

Published

1999

2. Precise measurements of the neutron magnetic form factor

Author

T. Petitjean, S. Schardt, Ingo Sick, J.M. Friedrich, L. J. deBever, M. Potokar, A. Wagner, Achim Richter, J. Zhao, P. Jennewein, M. O. Distler, H. Anklin, G. Masson, P. Trueb, R. Böhm, Th. Walcher, K.W. Krygier, W.U. Boeglin, J. Jourdan, H. Kramer, P. Sauer, M. Zeier, A. Rokavec, K. Merle, L.M. Qin, M. Tuccillo, R. Geiges, M. Kahrau, S. Sirca, A. Honegger, J. Götz, G. Kubon, R. Edelhoff, Glen A. Warren, K. I. Blomqvist, G. Rosner, Th. Pospischil, E. A. J. M. Offermann, A. Liesenfeld, V. Kunde, B. Zihlmann, B. Vodenik, D. Fritschi, R. Neuhausen, S. Wolf, and M. Korn

Subjects

Elastic scattering, Physics, Nuclear physics, Nuclear and High Energy Physics, Range (particle radiation), Astrophysics::High Energy Astrophysical Phenomena, Magnetic form factor, Neutron detection, Neutron, Atomic physics, Neutron radiation, Nuclear Experiment, Intensity (heat transfer)

Abstract

The neutron magnetic form factor Gmn has been determined via a measurement of the ratio of cross sections D(e,e′n) and D(e,e′p). The absolute detection efficiency of the neutron detector was measured with high accuracy using tagged neutrons produced from H(n,p)n elastic scattering by means of a high intensity neutron beam. This approach minimizes the model dependence and improves upon the weakest points of previous experiments. Data in the range q2=0.2–0.8 (GeV/c)2 with uncertainties of

Published

1998

3. Investigation of short-range nucleon-nucleon correlations using the reaction in close to 4π geometry

Author

R. Geiges, E. A. J. M. Offermann, A. Liesenfeld, Th. Pospischil, K. I. Blomqvist, M. O. Distler, V. Kunde, B. Vodenik, M. Kahrau, G. Rosner, A. Wagner, R. Edelhoff, Achim Richter, J.M. Friedrich, Manoj Kumar Yadav, M. Korn, Christopher Morris, M. Potokar, K. Merle, R. Neuhausen, S. Wolf, A. Rokavec, K.W. Krygier, P. Sauer, M. K. Jones, R. Böhm, H. Kramer, W.U. Boeglin, M. Kuss, Jan Ryckebusch, Ronald Ransome, S. Schardt, Barry Ritchie, and Th. Walcher

Subjects

Physics, Nuclear and High Energy Physics, Range (particle radiation), Missing energy, Spectrometer, Nuclear Theory, Geometry, Electron, Coincidence, Nuclear physics, Momentum, Physics::Accelerator Physics, Atomic physics, Nuclear Experiment, Nucleon, Crystal Ball

Abstract

Two-proton correlations were studied in close to 4 π geometry using the reaction 12 C (e,e′pp) . The beam energy was 705 MeV, the energy transfer 225 MeV, and the three-momentum transfer 412 MeV/c. The electrons were observed in a large-acceptance magnetic spectrometer in coincidence with protons observed in a BGO crystal ball. Missing energy and momentum, relative momentum and angular distributions were derived and compared with a factorized two-nucleon emission model. Soft-core correlation functions are favoured by the data.

Published

1998

4. The three-spectrometer facility at the Mainz microtron MAMI

Author

V. Kunde, M. Kahrau, Achim Richter, H. Kramer, R. Neuhausen, M. O. Distler, S. Wolf, A. Wagner, K. I. Blomqvist, K.W. Krygier, H. Schmieden, J.M. Friedrich, P. Sauer, U. Müller, P. Jennewein, W.U. Boeglin, R. Geiges, G. Rosner, Harald Merkel, K. Merle, R. Böhm, Th. Pospischil, Th. Walcher, M. Korn, E. A. J. M. Offermann, A. Liesenfeld, S. Schardt, and R. Edelhoff

Subjects

Physics, Nuclear and High Energy Physics, Spectrometer, Cherenkov detector, Solid angle, Electron, law.invention, Nuclear physics, Dipole, Dipole magnet, law, Quadrupole, Nuclear Experiment, Instrumentation, Microtron

Abstract

A set-up of three high-resolution magnetic spectrometers, for simplicity named A, B and C, has been built as the central facility for the precise determination of double and triple coincidence cross sections of hadron knock-out and meson production through the scattering of electrons at the Mainz microtron MAMI. The spectrometers A and C with point-to-point optics in the dispersive plane and parallel-to-point optics in the non-dispersive plane have a solid angle of 28 msr and a momentum acceptance of 20 and 25%, respectively. They each consist of a quadrupole, a sextupole and two dipole magnets, reaching maximum momenta of 735 and 550 MeV/c, respectively. The spectrometer B has a solid angle of 5.6 msr and a somewhat reduced momentum acceptance of 15%, but it reaches a maximum momentum larger than that of the MAMI electron beam (855 MeV/c). It consists of a single-clamshell dipole magnet with point-to-point optics in both planes. Each spectrometer is equipped with a position-sensitive detector system consisting of four planes of vertical drift chambers, two planes of plastic scintillators and a threshold gas Cherenkov detector. The operational experiences demonstrate that all three spectrometers exceed the specifications. Selected results of double (e, e′ x ) and triple (e, e′ x 1 x 2 ) coincidence experiments, x 1 and x 2 standing for charged hadrons, are presented, which demonstrate the performance of the whole set-up.

Published

1998

5. Model-independent separation of structure functions over an extended kinematical region

Author

Th. Veit, J.M. Friedrich, W.U. Boeglin, M. O. Distler, R. Edelhoff, K. I. Blomqvist, K. Merle, V. Kunde, S. Schardt, A. Wagner, E. A. J. M. Offermann, A. Liesenfeld, G. Rosner, R. Neuhausen, S. Wolf, Th. Pospischil, M. Korn, R. Geiges, H. Kramer, Achim Richter, K.W. Krygier, P. Sauer, and Th. Walcher

Subjects

Physics, Nuclear and High Energy Physics, Mathematical analysis, Hadron, Elementary particle, Minification, Extension (predicate logic), Fermion, Nucleon, Free parameter, Ansatz

Abstract

A method for the separation of structure functions in (e, e′ p) experiments is proposed, which is an extension of the traditional Rosenbluth-type techniques of [1,2]. In our approach, we use a very flexible Ansatz to describe the structure functions within an extended kinematical regionG and determine its free parameters with a x2 minimization. The procedure is tested by pseudo data (12C(e, e′p)11Bg.s.) in the quasi-free region.

Published

1994

6. MECDAS/spl minus/a distributed data acquisition system for experiments at MAMI

Author

K.W. Krygier and K. Merle

Subjects

Ethernet, Unix, Nuclear and High Energy Physics, Workstation, business.industry, law.invention, Front and back ends, Data acquisition, Nuclear Energy and Engineering, law, Data file, Electrical and Electronic Engineering, business, Computer hardware, Computer Automated Measurement and Control, VMEbus

Abstract

For coincidence experiments with the three-spectrometer setup at MAMI an experiment control and data acquisition system has been built and was put successfully into final operation in 1992. MECDAS is designed as a distributed system using communication via Ethernet and optical links. At the front end, VMEbus systems are used for real time purposes and direct hardware access via CAMAC, Fastbus or VMEbus. RISC workstations running UNIX are used for monitoring, data archiving and online and offline analysis of the experiment. MECDAS consists of several fixed programs and libraries, but large parts of readout and analysis can be configured by the user. Experiment specific configuration files are used to generate efficient and powerful code well adapted to special problems without additional programming. The experiment description is added to the raw or partially analyzed data to get self-descriptive data files. >

Published

1994

7. Self energies of the pion and the delta isobar from the ^3He(e,e'pi^+)^3H reaction

Author

M. Kohl, P. Bartsch, D. Baumann, J. Bermuth, R. Böhm, K. Bohinc, S. Derber, M. Ding, M.O. Distler, I. Ewald, J. Friedrich, J.M. Friedrich, P. Jennewein, M. Kahrau, S.S. Kamalov, A. Kozlov, K.W. Krygier, M. Kuss, A. Liesenfeld, H. Merkel, P. Merle, U. Müller, R. Neuhausen, Th. Pospischil, M. Potokar, C. Rangacharyulu, A. Richter, D. Rohe, G. Rosner, H. Schmieden, G. Schrieder, M. Seimetz, S. Širca, T. Suda, L. Tiator, M. Urban, A. Wagner, Th. Walcher, J. Wambach, M. Weis, and A. Wirzba

Subjects

Physics, Nuclear and High Energy Physics, Particle physics, Chiral perturbation theory, Nuclear Theory, FOS: Physical sciences, Propagator, Resonance (particle physics), Pion, Self-energy, Isobar, High Energy Physics::Experiment, Nuclear Experiment (nucl-ex), Nuclear Experiment, Microtron, Excitation

Abstract

In a kinematically complete experiment at the Mainz microtron MAMI, pion angular distributions of the $^3$He(e,e'$\pi^+)^3$H reaction have been measured in the excitation region of the $\Delta$ resonance to determine the longitudinal ($L$), transverse ($T$), and the $LT$ interference part of the differential cross section. The data are described only after introducing self-energy modifications of the pion and $\Delta$-isobar propagators. Using Chiral Perturbation Theory (ChPT) to extrapolate the pion self energy as inferred from the measurement on the mass shell, we deduce a reduction of the $\pi^+$ mass of $\Delta m_{\pi^+} = (-1.7^{+ 1.7}_{- 2.1})$ MeV/c$^2$ in the neutron-rich nuclear medium at a density of $\rho = (0.057^{+ 0.085}_{- 0.057})$ fm$^{-3}$. Our data are consistent with the $\Delta$ self energy determined from measurements of $\pi^0$ photoproduction from $^4$He and heavier nuclei., Comment: Elsart, 12 pages and 4 figures, Correspondent: Professor Dr. Dr. h.c. mult. Achim Richter, richter@ikp.tu-darmstadt.de, submitted to Phys. Rev. Lett

Published

2001

8. The Longitudinal and Transverse Response of the 4He(e,e'p) Reaction in the Dip Region

Author

A. Kozlov, K.A. Aniol, P. Bartsch, D. Baumann, W. Bertozzi, R. Böhm, K. Bohinc, J.P. Chen, D. Dale, L. Dennis, S. Derber, M. Ding, M.O. Distler, P. Dragovitsch, I. Ewald, K.G. Fissum, R.E.J. Florizone, J. Friedrich, J.M. Friedrich, R. Geiges, S. Gilad, P. Jennewein, M. Kahrau, M. Kohl, K.W. Krygier, A. Liesenfeld, D.J. Margaziotis, H. Merkel, P. Merle, U. Müller, R. Neuhausen, T. Pospischil, G. Riccardi, R. Roche, G. Rosner, D. Rowntree, A.J. Sarty, H. Schmieden, S. Širca, J.A. Templon, M.N. Thompson, A. Wagner, Th. Walcher, M. Weis, J. Zhao, and Z. Zhou

Subjects

Physics, Nuclear and High Energy Physics, Energy transfer, Momentum transfer, FOS: Physical sciences, Omega, Nuclear physics, Parallel kinematics, Transverse plane, Incident beam, Order (group theory), Physics::Accelerator Physics, Nuclear Experiment (nucl-ex), Nuclear Experiment

Abstract

A high-resolution study of the (e,e'p) reaction on Helium-4 was carried out at the Institut fuer Kernphysik in Mainz, Germany. The measurements were done in parallel kinematics (momentum transfer q=685 MeV/c, energy transfer omega=334 MeV) at different incident beam energies in order to enable the Rosenbluth separation of the longitudinal and transverse response functions., Comment: 3 pages including 2 figures

Published

1999