Your search keyword '"R. Riethmüller"' showing total 43 results

1. The acclimative biogeochemical model of the southern North Sea

Author

O. Kerimoglu, R. Hofmeister, J. Maerz, R. Riethmüller, and K. W. Wirtz

Subjects

Ecology, QH540-549.5, Life, QH501-531, Geology, QE1-996.5

Abstract

Ecosystem models often rely on heuristic descriptions of autotrophic growth that fail to reproduce various stationary and dynamic states of phytoplankton cellular composition observed in laboratory experiments. Here, we present the integration of an advanced phytoplankton growth model within a coupled three-dimensional physical–biogeochemical model and the application of the model system to the southern North Sea (SNS) defined on a relatively high resolution (∼ 1.5–4.5 km) curvilinear grid. The autotrophic growth model, recently introduced by Wirtz and Kerimoglu (2016), is based on a set of novel concepts for the allocation of internal resources and operation of cellular metabolism. The coupled model system consists of the General Estuarine Transport Model (GETM) as the hydrodynamical driver, a lower-trophic-level model and a simple sediment diagenesis model. We force the model system with realistic atmospheric and riverine fluxes, background turbidity caused by suspended particulate matter (SPM) and open ocean boundary conditions. For a simulation for the period 2000–2010, we show that the model system satisfactorily reproduces the physical and biogeochemical states of the system within the German Bight characterized by steep salinity; nutrient and chlorophyll (Chl) gradients, as inferred from comparisons against observation data from long-term monitoring stations; sparse in situ measurements; continuous transects; and satellites. The model also displays skill in capturing the formation of thin chlorophyll layers at the pycnocline, which is frequently observed within the stratified regions during summer. A sensitivity analysis reveals that the vertical distributions of phytoplankton concentrations estimated by the model can be qualitatively sensitive to the description of the light climate and dependence of sinking rates on the internal nutrient reserves. A non-acclimative (fixed-physiology) version of the model predicted entirely different vertical profiles, suggesting that accounting for physiological flexibility might be relevant for a consistent representation of the vertical distribution of phytoplankton biomass. Our results point to significant variability in the cellular chlorophyll-to-carbon ratio (Chl : C) across seasons and the coastal to offshore transition. Up to 3-fold-higher Chl : C at the coastal areas in comparison to those at the offshore areas contribute to the steepness of the chlorophyll gradient. The model also predicts much higher phytoplankton concentrations at the coastal areas in comparison to its non-acclimative equivalent. Hence, findings of this study provide evidence for the relevance of physiological flexibility, here reflected by spatial and seasonal variations in Chl : C, for a realistic description of biogeochemical fluxes, particularly in the environments displaying strong resource gradients.

Published

2017

2. Maximum sinking velocities of suspended particulate matter in a coastal transition zone

Author

J. Maerz, R. Hofmeister, E. M. van der Lee, U. Gräwe, R. Riethmüller, and K. W. Wirtz

Subjects

Ecology, QH540-549.5, Life, QH501-531, Geology, QE1-996.5

Abstract

Marine coastal ecosystem functioning is crucially linked to the transport and fate of suspended particulate matter (SPM). Transport of SPM is controlled by, amongst other factors, sinking velocity ws. Since the ws of cohesive SPM aggregates varies significantly with size and composition of the mineral and organic origin, ws exhibits large spatial variability along gradients of turbulence, SPM concentration (SPMC) and SPM composition. In this study, we retrieved ws for the German Bight, North Sea, by combining measured vertical turbidity profiles with simulation results for turbulent eddy diffusivity. We analyzed ws with respect to modeled prevailing dissipation rates ϵ and found that mean ws were significantly enhanced around log10(ϵ (m2 s−3)) ≈ −5.5. This ϵ region is typically found at water depths of approximately 15 to 20 m along cross-shore transects. Across this zone, SPMC declines towards the offshore waters and a change in particle composition occurs. This characterizes a transition zone with potentially enhanced vertical fluxes. Our findings contribute to the conceptual understanding of nutrient cycling in the coastal region which is as follows. Previous studies identified an estuarine circulation. Its residual landward-oriented bottom currents are loaded with SPM, particularly within the transition zone. This retains and traps fine sediments and particulate-bound nutrients in coastal waters where organic components of SPM become remineralized. Residual surface currents transport dissolved nutrients offshore, where they are again consumed by phytoplankton. Algae excrete extracellular polymeric substances which are known to mediate mineral aggregation and thus sedimentation. This probably takes place particularly in the transition zone and completes the coastal nutrient cycle. The efficiency of the transition zone for retention is thus suggested as an important mechanism that underlies the often observed nutrient gradients towards the coast.

Published

2016

3. Measurement of optical light attenuation profiles in the Elbe estuary

Author

R. Riethmüller, M. Schröder, and U. Maixner

Published

2022

4. SEARCH FOR NEW SEQUENTIAL LEPTONS IN E+E- ANNIHILATION AT PETRA ENERGIES

Author

John Freeman, M. Ogg, Walter Dr. Hillen, D. M. Binnie, G. Peise, H. Hartmann, F. J. Kirschfink, W. Wallraff, H. M. Fischer, W. Koch, J. Proudfoot, H. Hultschig, B. H. Wiik, T. Barklow, S. Yarker, P. J. Dornan, G. Poelz, G. Rudolph, D. G. Cassel, E. Hilger, E.E. Ronat, R. Rüsch, Rj Cashmore, J. Pyrlik, H. Boerner, G. Knop, D. Heyland, R. A. Stern, Ehud Duchovni, D. H. Saxon, P. Joos, R.C.E. Devenish, R. Brandelik, E. Wicklund, M. A. Downie, D.W. Schmitz, J. C. Hart, P. Mättig, John Illingworth, R. Wedemeyer, AS von Dratzig, P. L. Woodworth, O. Römer, Gl Salmon, T. Meyer, Kadansky, J. Rimkus, H. Kowalski, R. Riethmüller, D. Trines, A. Ladage, Stephen Lloyd, H. G. Sander, K. Lübelsmeyer, P. Söding, Gy. Wolf, P. Koehler, R. Fohrmann, L. Koepke, Hermann Kolanoski, U. Karshon, Y. Eisenberg, P. Grossmann, U. Kötz, H. Burkhardt, D. Notz, S Lan Wu, I. C. Brock, G Zobernig, C. Youngman, A. Shapira, D. A. Garbutt, W. G. Jones, Kw Bell, P. Schmüser, M. Holder, K. Gather, I. Al-Agil, D. Revel, P. Leu, D. Lüke, G. Mikenberg, W. Braunschweig, P. Lecomte, B. Foster, J. Sedgbeer, H. L. Lynch, T. R. Wyatt, D. Pandoulas, Hu Martyn, Quarrie, M. Wollstadt, and N Wermes

Subjects

Nuclear physics, Physics, Nuclear and High Energy Physics, Particle physics, Annihilation, Lepton

Published

2016

5. CHARGED PION-PRODUCTION IN E+E- ANNIHILATION AT 14,22 AND 34 GEV CM ENERGY

Author

Ehud Duchovni, Juergen Thomas, K. H. Mess, R.C.E. Devenish, P. Leu, Hl Krasemann, Gl Salmon, R. Wedemeyer, G. Rudolph, T. Meyer, D. Trines, RA Stern, D. Lüke, T. Barklow, Kw Bell, A. Ladage, P. Schmüser, G. Mikenberg, Hermann Kolanoski, Walter Dr. Hillen, G. Peise, W. Braunschweig, H. Hartmann, W. Koch, S. L. Wu, J. Pyrlik, E. Hilger, R. Carnegie, M. Wollstadt, P. Lecomte, H. Hultschig, G. Poelz, B. H. Wiik, B. Foster, D. Heyland, J. Sedgbeer, Gy. Wolf, D.W. Schmitz, P. Koehler, J. Proudfoot, P. J. Dornan, R. Brandelik, D. Notz, A. J. Campbell, L. Köpke, M. G. Bowler, R. Fohrmann, R. Beuselinck, J. Rimkus, H. Burkhardt, John Freeman, S. Cooper, N Wermes, M. Ogg, A. Shapira, H. G. Sander, D. M. Binnie, B. Löhr, P. Joos, U. Kötz, D. A. Garbutt, E. Wicklund, K. Lübelsmeyer, P. Söding, John Illingworth, P. L. Woodworth, O. Römer, W. G. Jones, M. Holder, K. Gather, T. R. Wyatt, W. Wallraff, D. Revel, Y. Eisenberg, R. Rüsch, C. Youngman, J. Harvey, H. Boerner, I. C. Brock, Rj Cashmore, G Zobernig, P. Grossmann, T. D. Jones, R. Riethmüller, H. Kowalski, D. H. Saxon, I. Al-Agil, U. Karshon, D. Pandoulas, E.E. Ronat, J. C. Hart, Sl Lloyd, G. Knop, H. M. Fischer, F. J. Kirschfink, S Yarker, H. L. Lynch, P. Mättig, Hu Martyn, and Quarrie

Subjects

Physics, Nuclear and High Energy Physics, Range (particle radiation), Particle physics, Annihilation, Meson, Electron–positron annihilation, Astrophysics::High Energy Astrophysical Phenomena, Hadron, Nuclear Theory, Nuclear physics, Pion, High Energy Physics::Experiment, Nuclear Experiment, Energy (signal processing)

Abstract

The inclusive production of π ± mesons in e + e − annihilation has been measured at c.m. energies of 14, 22 and 34 GeV for pion momenta between 0.3 ans 10 GeV/ c . The fraction of pions among the charged hadrons is above 90% at 0.4 GeV/ c and decreases to about 50% at high momenta. The scaled cross sections ( s β ) d σ d x at 14, 22 and 34 GeV as well as the 5.2 GeV data from DASP have a rather similar x dependence. After integration over the x range from 0.2 to 0.6 the cross sections indicate a monotonic decrease with increasing centre-of-mass energy.

Published

2016

6. DSTAR+/- PRODUCTION BY E+E- ANNIHILATION NEAR 34.4 GEV CM ENERGY

Author

P. Leu, D. Lüke, D.W. Schmitz, P. J. Dornan, A. J. Campbell, R. Fohrmann, H. Hartmann, D. Strom, B. Löhr, R. J. Cashmore, U. Kötz, Gl Salmon, T. Barklow, J. Harvey, R.C.E. Devenish, H. Siebke, P. Joos, K. Lübelsmeyer, D. A. Garbutt, E. Hilger, M. Dittmar, G. Rudolph, D. Hochman, T. R. Wyatt, J. Proudfoot, A. Ladage, F. J. Kirschfink, Ehud Duchovni, G. Yekutieli, H. Kück, E. Wicklund, J. McCardle, R. Riethmüller, P. E. L. Clarke, D. Heyland, T. D. Jones, K. W. Bell, P. Mättig, A. Shapira, D. Trines, K. Gather, Y. Eisenberg, Lan Wu Sau Lan Wu, D. H. Saxon, Juergen Thomas, W. Braunschweig, W. Wallraff, Hermann Kolanoski, C. Youngman, D. Pandoulas, G. Mikenberg, M. Wollstadt, W. Koch, Joseph Izen, J. K. Sedgbeer, A. M. Rushton, R. Beuselinck, Hl Krasemann, D. R. Quarrie, H. M. Fischer, W. G. Jones, Walter Dr. Hillen, R. Wedemeyer, G. Poelz, R. Mir, G. Peise, H. Venkataramania, I. C. Brock, M. Althoff, D. Notz, Georg Zobernig, J. Pyrlik, Stephen Lloyd, P. L. Woodworth, K. H. Mess, E. Lohrmann, J. Rimkus, U. Karshon, P. Grossmann, M. G. Bowler, Gy. Wolf, B. Foster, D. M. Binnie, H. U. Martyn, W. Schütte, Norbert Wermes, M. Holder, I. Al-Agil, H. Hultschig, D. Revel, H. Burkhardt, B. H. Wiik, L. Köpke, M. Cherney, John Hart, H. G. Sander, E.E. Ronat, G. Knop, and H. Kowalski

Subjects

Physics, Nuclear physics, Nuclear and High Energy Physics, Particle physics, Annihilation, Pion, Meson, Neutral current, Branching fraction, Electron–positron annihilation, Hadron, Charm quark

Abstract

D∗± production via e+e−→D∗±X has been measured at an average CM energy of 34.4 GeV. The D∗± energy spectrum is hard, with a maximum near χ = 0.6. The size of the D∗ cross section, R D ∗ = σ( e + e − → D ∗ X ) σ μμ = 2.50 ± 0.64 ± 0.88 (assuming R D ∗0 = R D ∗+ ) indicates that a large fraction of charm quark production yields D∗ mesons. The D∗± angular distribution exhibits a forward—backward asymmetry, A = −0.28 ± 0.13. This is consistent with that expected in the standard theory for weak neutral currents and leads to |gAc| = 0.89 ± 0.44 for the axial vector coupling of the charm quark.

Published

2016

7. E+E- ANNIHILATION AT HIGH-ENERGIES AND SEARCH FOR THE T-QUARK CONTINUUM CONTRIBUTION

Author

H. M. Fischer, D. G. Cassel, P. Koehler, Rj Cashmore, John Freeman, M. Ogg, A. Schultz von Dratzig, B. Löhr, D. M. Binnie, E. Hilger, P. Joos, D. Heyland, D. Notz, E.E. Ronat, D.W. Schmitz, John Illingworth, G. Knop, R. Brandelik, Walter Dr. Hillen, P. L. Woodworth, G. Peise, J. Pyrlik, Gl Salmon, H. L. Lynch, A. Pevsner, M. Wollstadt, N Wermes, J. Rimkus, B. Roe, G. Wolff, O. Römer, H. Kowalski, D. H. Saxon, R. Fohrmann, T. Meyer, S. Yarker, P. Mättig, N. A. Downie, D. Trines, U. Kötz, Kw Bell, A. Ladage, P. Schmüser, B. Foster, H. Hartmann, D. A. Garbutt, D. R. Quarrie, J. Sedgbeer, D. Revel, J. C. Hart, P. Leu, W. Wallraff, W. G. Jones, M. Holder, J. Ringel, W. Chinowsky, K. Gather, D. Pandoulas, Y. Eisenberg, D. Lüke, G Zobernig, C. Youngman, G. Mikenberg, W. Koch, Hu Martyn, Stephen Lloyd, G. Poelz, H. G. Sander, H. Boerner, R. Riethmüller, J. Proudfoot, V. Kadansky, R. Rüsch, K. Lübelsmeyer, P. Söding, W. Braunschweig, P. Lecomte, U. Karshon, A. Shapira, Roger Barlow, M. Schliwa, R. Wedemeyer, H. Hultschig, B. H. Wiik, Sau Lan Wu, and P. J. Dornan

Subjects

Physics, Nuclear physics, Top quark, Particle physics, Annihilation, Physics and Astronomy (miscellaneous), Electron–positron annihilation, Nuclear fusion, High Energy Physics::Experiment, Continuum (set theory), Nuclear Experiment, Engineering (miscellaneous), Sphericity

Abstract

Measurements of R, sphericity and thrust are presented for c.m. energies between 12 and 31.6 GeV. A possible contribution of a t {Mathematical expression} continuum can be ruled out for c.m. energies between 16 and 31 GeV. © 1980 Springer-Verlag.

Published

2016

8. Angular correlations in γγ→ρ0ρ0 near threshold

Author

H. U. Martyn, T. D. Jones, Walter Dr. Hillen, G. Peise, E. Lohrmann, D. Heyland, P. Mättig, Norbert Wermes, R. Carnegie, U. Karshon, R. Riethmüller, D.W. Schmitz, I. C. Brock, P. Schmüser, R.C.E. Devenish, P. J. Dornan, A. J. Campbell, D. Trines, H. Venkataramania, M. G. Bowler, L. Köpke, R. Fohrmann, J. Franzke, S. Cooper, M. Wollstadt, H. Kowalski, J. Harvey, Y. Eisenberg, Juergen Thomas, P. Joos, R. J. Cashmore, J. K. Sedgebeer, H. G. Sander, W. Wallraff, B. Foster, P. E. L. Clarke, D. M. Binnie, Hermann Kolanoski, O. Römer, R. Wedemeyer, E. Wicklund, Hl Krasemann, A. Shapira, W. Schütte, U. Kötz, W. Koch, Stephen Lloyd, K. H. Mess, W. Braunschweig, Gl Salmon, D. Lüke, P. Grossmann, G. Rudolph, D. A. Garbutt, I. Al-Agil, F. J. Kirschfink, H. Siebke, T. Barklow, B. Löhr, H. Hartmann, D. H. Saxon, Ehud Duchovni, T. Meyer, J. McCardle, M. Holder, G. Poelz, J. Pyrlik, H. Hultschig, W. G. Jones, T. R. Wyatt, B. H. Wiik, John Hart, J. Proudfoot, K. Gather, D. Revel, John Illingworth, Sau Lan Wu, D. R. Quarrie, C. Youngman, Gy. Wolf, A. Ladage, M. Althoff, D. Notz, G. Mikenberg, P. L. Woodworth, R. Beuselinck, H. M. Fischer, J. Rimkus, K. Lübelsmeyer, E. Hilger, P. Söding, M. Dittmar, P. Leu, H. Burkhardt, E.E. Ronat, D. Pandoulas, G. Yekutieli, K. W. Bell, G. Knop, H. Boerner, and Georg Zobernig

Subjects

Physics, Cross section (geometry), Nuclear physics, Particle physics, Range (particle radiation), Near threshold, Photon, Pion, Physics and Astronomy (miscellaneous), Partial wave analysis, Isotropy, Invariant mass, Engineering (miscellaneous)

Abstract

We present an analysis of ρ0ρ0 production by two photons in the ρ0ρ0 invariant mass range from 1.2 to 2.0 GeV. From a study of the angular correlations in the process γγ→ρ0ρ0→π- π+π- we exclude a dominant contribution from JP=0- or 2- states. The data indicate sizeable contributions from JP=0+ for four pion masses M4π1.7 GeV. The data are also well described by a model with isotropic production and uncorrelated isotropic decay of the ρ0,s. The cross section stays high below the nominal ρ0ρ0 threshold, i.e. M4π

Published

2016

9. ELECTROWEAK COUPLING-CONSTANTS IN THE LEPTONIC REACTIONS E+E--]E+E- AND E+E--]MU+MU- AND SEARCH FOR SCALAR LEPTONS

Author

O. Römer, T. Barklow, H. Kowalski, W. Koch, W. G. Jones, K. Gather, C. Youngman, I. C. Brock, G. Poelz, G. Mikenberg, K. H. Mess, E. Lohrmann, D. M. Binnie, I. Al-Agil, Hu Martyn, Quarrie, U. Karshon, B. Foster, M. Holder, H. Hultschig, Y. Eisenberg, Gy. Wolf, M. G. Bowler, Gl Salmon, J. Sedgbeer, B. H. Wiik, R.C.E. Devenish, T. Meyer, W. Braunschweig, H. Hartmann, R. Wedemeyer, P. J. Dornan, P. Grossmann, H. Boerner, D. Lüke, Ehud Duchovni, A. Ladage, J. Franzke, Norbert Wermes, S. L. Wu, A. Shapira, J. Proudfoot, John Illingworth, U. Kötz, D. Heyland, D.W. Schmitz, T. R. Wyatt, P. L. Woodworth, Juergen Thomas, D. A. Garbutt, H. Burkhardt, A. J. Campbell, E.E. Ronat, W. Schütte, E. Hilger, D. Notz, R. Fohrmann, K. Lübelsmeyer, P. Söding, G. Knop, S. Cooper, M. Wollstadt, R. Carnegie, P. E. L. Clarke, P. Leu, R. Brandelik, D. Pandoulas, D. Revel, J. Rimkus, F. J. Kirschfink, L. Köpke, H. G. Sander, H. L. Lynch, Walter Dr. Hillen, G. Peise, Hl Krasemann, G. Rudolph, B. Löhr, R. Riethmüller, J. Pyrlik, Kw Bell, P. Schmüser, T. D. Jones, J. Harvey, Rj Cashmore, H. M. Fischer, D. H. Saxon, Georg Zobernig, R. Beuselinck, J. C. Hart, Sl Lloyd, P. Mättig, M. Ogg, P. Joos, E. Wicklund, D. Trines, W. Wallraff, and Hermann Kolanoski

Subjects

Physics, Coupling constant, Nuclear and High Energy Physics, Particle physics, Muon, Scalar (mathematics), Electroweak interaction, Weinberg angle, Astrophysics::Cosmology and Extragalactic Astrophysics, Nuclear physics, Pair production, High Energy Physics::Experiment, Lepton, Bhabha scattering

Abstract

A high statistics experiment was performed on Bhabha scattering at energies between 14 and 34 GeV. Good agreement with QED was observed. The combined data on Bhabha scattering and μ pair production were found to agree with the standard theory of electroweak interaction giving sin2 θ = 0.27-0.07+0.06. Assuming for the Z0 mass a value of 90 GeV the leptonic weak coupling constants were determined to gV2 = -0.04 ± 0.06 and gA2 = 0.35 ± 0.09. A search for scalar leptons sets lower limits on the mass of scalar electrons ofMse > 16.6 GeV and of scalar muons of Msμ > 16.4 GeV. © 1982.

Published

2016

10. Von WATiS bis ELBiS — Übertragung eines Informationssystems für Forschung und Verwaltung von der Küste auf die Elbe

Author

H. L. Krasemann and R. Riethmüller

Abstract

Nutzung und Schutz von grosen Naturraumen wie dem Wattenmeer oder auch groser Flussysteme wie das Elbeeinzugsgebiet stehen in einem Interessenkonflikt, der auf Grundlage fundierten Wissens uber die eng miteinander verflochtenen physikalischen, chemischen und biologischen Vorgange sowie den Wechselwirkungen mit menschlicher Aktivitat angemessen zu bewerten ist. Wissensgrundlagen sollen sowohl langfristige okologische Umweltbeobachtungen wie das trilaterale Wattenmeermonitoring als auch koordinierte Schwerpunktforschung liefern (SRU 1990, IKSE 1990, TMEG 1993, ELBE2000, GOAP).

Published

1994

11. Nutzerführungssysteme für das Wattenmeerinformationssystem WATiS

Author

A. Müller, H. L. Krasemann, K. Leithäuser, R. Riethmüller, Bernd Page, S. Patzig, H. Wagler, and D. Willmann

Abstract

Das Wattenmeerinformationssystem WATiS stellt der Umweltforschung und -Verwaltung relevante und umfangreiche Daten zum Okosystem Wattenmeer zur Verfugung. Die Anwender des WATiS konnen von ihren lokalen Rechnern auf den zentral gehaltenen Wattenmeerdatenbestand zugreifen. Wegen des Umfanges und der Heterogenitat des Datenbestandes ist jedoch die Orientierung fur die Benutzer problematisch.

Published

1993

12. RHO-RHO production by two photon scattering

Author

P. Schmüser, H. M. Fischer, J. Rimkus, V. Kadansky, D. Notz, H. U. Martyn, R. Rüsch, J. Pyrlik, H. L. Lynch, Gl Salmon, B. Löhr, P. Joos, B. Foster, A. Schultz von Dratzig, Walter Dr. Hillen, H. Hartmann, T. Meyer, John Freeman, M. Ogg, Georg Zobernig, G. Peise, H. Boerner, M. Wollstadt, K. W. Bell, R. Riethmüller, A. Ladage, Rj Cashmore, U. Karshon, H. Hultschig, W. G. Jones, J. Proudfoot, P. Koehler, S. Yarker, John Illingworth, P. Mättig, D. G. Cassel, W. Koch, B. H. Wiik, John Hart, P. L. Woodworth, N. A. Downie, R. Wedemeyer, Norbert Wermes, G. Poelz, Sau Lan Wu, T. R. Wyatt, H. G. Sander, B. Roe, H. Kowalski, D. R. Quarrie, U. Kötz, K. Lübelsmeyer, D. A. Garbutt, P. Söding, R.C.E. Devenish, P. Grossmann, D. M. Binnie, E. Hilger, D. Pandoulas, M. Holder, K. Gather, H. Burkhardt, P. Lecomte, R. Brandelik, D. Revel, Gy. Wolf, Y. Eisenberg, E.E. Ronat, W. Braunschweig, D. Lüke, G. Knop, G. Mikenberg, D. Heyland, D.W. Schmitz, P. J. Dornan, R. Fohrmann, P. Leu, Ehud Duchovni, D. H. Saxon, O. Römer, Stephen Lloyd, A. Shapira, D. Trines, W. Wallraff, Hermann Kolanoski, J. K. Sedgbeer, C. Youngman, L. Koepke, Roger Barlow, M. Schliwa, and I. C. Brock

Subjects

Nuclear physics, Physics, Nuclear and High Energy Physics, Two-photon excitation microscopy, Scattering, Electron–positron annihilation

Published

1980

13. A measurement of σtot(e+e− → hadrons) for cm energies between 12.0 and 36.7 GeV

Author

W. Koch, B. Löhr, P. Mättig, T. D. Jones, P. Joos, G. Poelz, H. Hartmann, P. Schmüser, E. Wicklund, R. Wedemeyer, W. Schütte, J. Proudfoot, RA Stern, J. Franzke, H. Kowalski, T. Barklow, J. Pyrlik, R.C.E. Devenish, D. Notz, H. L. Lynch, O. Römer, R. Carnegie, R. Riethmüller, M. Wollstadt, M. Holder, H. U. Martyn, Y. Eisenberg, H. M. Fischer, D. Revel, H. Hultschig, B. H. Wiik, Rj Cashmore, D. M. Binnie, K. H. Mess, H. Burkhardt, Sau Lan Wu, Norbert Wermes, P. J. Dornan, John Illingworth, Georg Zobernig, Ehud Duchovni, P. L. Woodworth, R. Beuselinck, H. Boerner, W. Braunschweig, W. G. Jones, D. H. Saxon, C. Youngman, Walter Dr. Hillen, L. Köpke, G. Peise, D. R. Quarrie, John Freeman, K. Gather, S Yarker, E.E. Ronat, Gy. Wolf, B. Foster, J. C. Hart, Sl Lloyd, H. G. Sander, M. Ogg, J. Sedgbeer, A. Shapira, W. Wallraff, I. C. Brock, T. R. Wyatt, G. Knop, J. Harvey, J. Rimkus, Hl Krasemann, I. Al-Agil, S. Cooper, G. Rudolph, D. Pandoulas, U. Karshon, P. Grossmann, K. Lübelsmeyer, P. Söding, M. G. Bowler, Giora Mikenberg, Gl Salmon, F. J. Kirschfink, T. Meyer, A. Ladage, D. Heyland, D.W. Schmitz, A. J. Campbell, R. Fohrmann, P. Leu, Juergen Thomas, K. W. Bell, D. Lüke, D. Trines, Hermann Kolanoski, U. Kötz, D. A. Garbutt, E. Hilger, and R. Brandelik

Subjects

Quantum chromodynamics, Physics, Quark, Nuclear physics, Nuclear and High Energy Physics, Particle physics, Electron–positron annihilation, High Energy Physics::Phenomenology, Hadron, High Energy Physics::Experiment, Nuclear Experiment, Mass parameter

Abstract

The ration R = σ (e + e − → hadrons) σ μμ was measured between 12.0 and 36.7 GeV c.m. energy W with a precision of typically ± 5.2%. R is found to be constant with an average R = 4.01 ± 0.03 (stat) ± (syst.) for W ⩾ 14 GeV. Quarks are found to be point-like, the mass parameter describing a possible quark form-factor being larger than 186 GeV. Fits including QCD corrections and a weak neutral-current contribution are presented.

Published

1982

14. Investigation of Material Transport and Load in Tidal Rivers

Author

A. Müller, R. Riethmüller, W. Michaelis, H. Kuhn, and H.-U. Fanger

Subjects

Pollution, Environmental Engineering, Water transport, Computer simulation, media_common.quotation_subject, Experimental data, Soil science, Particulates, Settling, Environmental science, Geotechnical engineering, Boundary value problem, Turbidity, Water Science and Technology, media_common

Abstract

The transport of suspended particulate matter and of heavy metals in tidal rivers is of both ecological and economic relevance. But temporal variabilities and spatial heterogeneities considerably complicate its quantitative treatment by numerical simulation and the acquisition of representative field data for systematic investigations. As a contribution to the potential solution of this problem, a methodology has been developed at the GKSS Research Centre which combines theoretical and experimental techniques in an effective way. A novel measuring system on board a ship allows the fast determination of hydrographie parameters, and water samples are taken in parallel from different depths. Various analytical techniques are applied for quantitative trace-element detection. The experimental data are used as boundary conditions in hydrodynamic and transport model calculations. In the paper, the experimental equipment, techniques, and numerical models are described. Some results of first promising investigations are presented: Lateral distribution of water transport, tidal variation of vertical turbidity profiles, settling velocities, cumulative transp.ort of suspended matter and heavy metals, dissolved and particulate heavy-metal contents and, in part, their tidal variations.

Published

1986

15. Upper limits on the production rate of the decuplet baryons Δ andΣ* ine + e − annihilation at 34.4 GeV

Author

H. Siebke, M. Winik, C. Youngman, H. M. Fischer, W. G. Jones, R. Riethmüller, H. Venkataramania, J. Pyrlik, H. Kowalski, E. Hilger, M. Takashima, Ehud Duchovni, R.C.E. Devenish, R. J. Cashmore, P. L. Woodworth, T. Tymieniecka, D. Trines, J. McCardle, E.E. Ronat, U. Kötz, H. U. Martyn, B. Löhr, M. G. Bowler, Stephanie Brandt, Philip Bull, D. A. Garbutt, A. Eskreys, R. J. Nowak, W. Wallraff, Hermann Kolanoski, J. K. Sedgbeer, P. Joos, K. Gather, J. Harvey, Georg Zobernig, G. Knop, D. Pandoulas, W. A. T. Wan Abdullah, T. Kracht, G. Mikenberg, H. Hartmann, R. Beuselinck, P. Schmüser, P. E. L. Clarke, C. Jenkins, E. Wicklund, Gy. Wolf, K. W. Bell, P. Mättig, U. Karshon, W. Scütte, A. Caldwell, V. Mertens, Stephen Lloyd, A. Jocksch, K. H. Mess, A. Ladage, G. Baranko, T. D. Jones, G. Poelz, M. Althoff, Ch. Xiao, D. K. Hasell, G. Kreutz, P. Rosskamp, D. Notz, P. J. Dorman, H. Kück, K. U. Pösnecker, B. Foster, D. M. Binnie, P. Grossmann, Joseph Izen, R. Wedemeyer, D. Strom, A. Shapira, K. Lübelsmeyer, M. Rushton, G. Rudolph, B. Neumann, F. J. Kirschfink, M. Holder, H. Hultschig, Michael Dittmar, B. H. Wiik, John Hart, G. Yekutieli, Sau Lan Wu, Y. Eisenberg, W. Braunschweig, C. M. Hawkes, Fernando Barreiro, E. Lohrmann, J. Eisenmann, Hl Krasemann, M. Mermikides, D. Revel, R. Mir, D. H. Saxon, L. Köpke, M. Cherney, P. Leu, J. Thomas, H. G. Sander, G. E. Forden, D. Lüke, S. Ritz, D.W. Schmitz, A. J. Campbell, and R. Fohrmann

Subjects

Physics, Nuclear physics, Baryon, Particle physics, Annihilation, Physics and Astronomy (miscellaneous), Octet, Electron–positron annihilation, Invariant mass, Strangeness, Spectral line, Production rate

Abstract

Samples of ∼1,900 identified protons and ∼500 Λ have been used to search for decuplet baryon production ine+e− annihilation at a c.m. energy of 34.4 GeV. Thep π+ and Λ π± invariant mass spectra contain no Δ orΣ* signals. Upper limits, at 95% confidence level, are that less than 12% of allp and less than 26% of all Λ come from the decay of doubly charged Δ and singly chargedΣ* states respectively. These limits correspond to production rates of

Published

1984

16. Λ, production in e+e− annihilation at 33 GeV centre of mass energy

Author

M. Holder, K. Gather, G. Mikenberg, H. L. Lynch, E. Hilger, D. R. Quarrie, D. Trines, R. Beuselinck, A. Schultz von Dratzig, W. Wallraff, Hermann Kolanoski, J. K. Sedgbeer, L. Köpke, P. Mättig, H. M. Fischer, T. D. Jones, W. Koch, D. H. Saxon, R. Brandelik, Georg Zobernig, D. M. Binnie, K. W. Bell, H. G. Sander, G. Poelz, H. Hartmann, F. J. Kirschfink, John Freeman, G. Rudolph, I. Al-Agil, M. Ogg, W. G. Jones, D. Notz, S. Cooper, M. Wollstadt, R.C.E. Devenish, R. Rüsch, P. Grossmann, E.E. Ronat, Juergen Thomas, P. Joos, B. Foster, Hl Krasemann, G. Knop, John Illingworth, P. L. Woodworth, A. Shapira, Walter Dr. Hillen, G. Peise, R. J. Cashmore, R. Riethmüller, U. Kötz, Gy. Wolf, R. A. Stern, E. Wicklund, H. U. Martyn, S. Yarker, J. Proudfoot, Norbert Wermes, D. A. Garbutt, J. Rimkus, Gl Salmon, H. Hultschig, B. H. Wiik, H. Burkhardt, John Hart, H. Kowalski, T. R. Wyatt, T. Meyer, Sau Lan Wu, A. Ladage, J. Pyrlik, P. Schmüser, Ehud Duchovni, U. Karshon, K. Lübelsmeyer, P. Leu, D. Lüke, P. Söding, Stephen Lloyd, D. Heyland, K. H. Mess, D.W. Schmitz, P. J. Dornan, A. J. Campbell, R. Fohrmann, D. Pandoulas, D. Revel, P. Lecomte, O. Römer, C. Youngman, I. C. Brock, Y. Eisenberg, M. G. Bowler, H. Boerner, W. Braunschweig, T. Barklow, and R. Wedemeyer

Subjects

Physics, Nuclear physics, Nuclear and High Energy Physics, Annihilation, Production (economics), Energy (signal processing)

Published

1981

17. Threshold Cerenkov Counters

Author

G Poelz, P. Lecomte, O. Römer, P Schmüser, and R. Riethmüller

Subjects

Physics, Jet (fluid), Optics, business.industry, Solid angle, High Energy Physics::Experiment, Condensed Matter Physics, business, Mathematical Physics, Atomic and Molecular Physics, and Optics, Charged particle

Abstract

The identification of charged particles with threshold Cerenkov counters at present and future storage rings is discussed. Geometric arrangement, solid angle coverage, segmentation required for jet analysis, type and number of radiating media are considered. Large systems of Aerogel counters are presented.

Published

1981

18. Production of in photon-photon collisions and the excitation of the tensor meson f′(1515)

Author

I. Al-Agil, M. Wollstadt, J. McCardle, K. Gather, G. Mikenberg, Gy. Wolf, R. Beuselinck, M. G. Bowler, H. Kowalski, C. Youngman, D. Revel, Y. Eisenberg, P. E. L. Clarke, H. U. Martyn, J. K. Sedgebeer, P. Grossmann, L. Köpke, R. J. Cashmore, M. Cherney, H. Burkhardt, R.C.E. Devenish, G. Rudolph, H. G. Sander, J. Rimkus, W. Braunschweig, D. R. Quarrie, Gl Salmon, Ehud Duchovni, H. Venkataramania, D. Trines, J. Franzke, U. Kötz, T. Meyer, T. D. Jones, W. G. Jones, H. Kück, A. Ladage, J. Pyrlik, P. Schmüser, D. A. Garbutt, John Illingworth, S. J. Cooper, P. L. Woodworth, F. J. Kirschfink, M. Althoff, H. M. Fischer, D. Notz, E. Hilger, W. Wallraff, M. Holder, Hermann Kolanoski, Walter Dr. Hillen, G. Peise, H. Hultschig, Georg Zobernig, B. H. Wiik, John Hart, H. Hartmann, W. Koch, Sau Lan Wu, B. Löhr, K. Lübelsmeyer, R. Brandelik, G. Poelz, J. Proudfoot, P. Söding, T. Barklow, P. Joos, E. Wicklund, D. Pandoulas, Stephen Lloyd, D. Heyland, H. Siebke, K. H. Mess, G. Yekutieli, T. R. Wyatt, K. W. Bell, P. Mättig, E.E. Ronat, G. Knop, Norbert Wermes, Juergen Thomas, R. Wedemeyer, B. Foster, D. M. Binnie, A. Shapira, U. Karshon, I. C. Brock, D. Hochman, H. Boerner, R. Carnegie, E. Lohrmann, Hl Krasemann, D. Lüke, P. Leu, D.W. Schmitz, P. J. Dornan, A. J. Campbell, R. Fohrmann, R. Riethmüller, J. Harvey, D. H. Saxon, and W. Schütte

Subjects

Nuclear physics, Physics, Nuclear and High Energy Physics, Particle decay, Pair production, Meson, Branching fraction, Hadron, Elementary particle, Atomic physics, Helicity, Lepton

Abstract

We have observed exclusive production of K + K − and K S O K S O pairs and the excitation of the f′(1515) tensor meson in photon-photon collisions. Assuming the f′ to be production in a helicity 2 state, we determine Λ( f ′ → γγ) B( f ′ → K K ) = 0.11 ± 0.02 ± 0.04 keV . The non-strange quark of the f′ is found to be less than 3% (95% CL). For the θ(1640) we derive an upper limit for the product Λ(θ rarr; γγ K K ) keV (95% CL ) .

Published

1983

19. Preparation of silica aerogel for Cherenkov counters

Author

R. Riethmüller and G. Poelz

Subjects

Materials science, Cherenkov detector, business.industry, General Engineering, Aerogel, Production efficiency, law.invention, Wavelength, Optics, Transmission (telecommunications), law, Radiator (engine cooling), business, Refractive index, Cherenkov radiation

Abstract

Silica aerogel was produced with an index of refraction of n = 1.024 to equip the TASSO Cherenkov detector with 17001 of this radiator medium. In the production process, which is described in detail, different parameters were varied to determine their influence on the shape and the optical quality of the aerogel samples. With the present equipment, samples with a size of 17 × 17 × 2.3 cm3 were manufactured at a rate of 144 pieces per week. A production efficiency of about 90% was obtained. The index of refraction for all samples around n = 1.024 is distributed with σn = 1.3 × 10−3. They have an optical transmission length of Λ = 2.64 cm at a wavelength λ = 436 nm with σΛ = 0.22 cm. For samples with n = 1.017, Λ is found to be about 30% higher.

Published

1982

20. Experimental investigation of the formation of critical boiling nuclei in superheated sodium

Author

R. Riethmüller

Subjects

Nuclear and High Energy Physics, Work (thermodynamics), Materials science, Scattering, Scanning electron microscope, Mechanical Engineering, Sodium, Nucleation, Thermodynamics, chemistry.chemical_element, Superheating, Nuclear Energy and Engineering, chemistry, Boiling, General Materials Science, Safety, Risk, Reliability and Quality, Waste Management and Disposal, Cold trap

Abstract

This work deals with the problem of boiling nuclei growth up to the critical size in superheated sodium. The sodium was superheated to a certain degree without initiating the onset of boiling. The lifetime of the superheated state — defined as the waiting time — was measured. The experiments were performed with stagnant sodium in a gas-free apparatus. The sodium temperature and superheat were up to 960°C and 360°C, respectively. Waiting times of up to some hours were measured with large scattering of values. Cold trap purifications influenced the waiting time irreversibly. Natural boiling nuclei were unstable. An artificial boiling nucleus (small cylindrical cavity) was inactive. The existence of many cavities in the test chamber surface was demonstrated by a scanning electron microscope. Experimental results are compared with theoretical predictions from known nucleation models. The dynamic model of the formation of collective heterogeneous boiling nuclei agreed qualitatively.

Published

1977

21. The TASSO gas and aerogel Cherenkov counters

Author

R. Maschuw, J. Ringel, B. H. Wiik, Sau Lan Wu, R. Riethmüller, T. Meyer, H. Krasemann, P. Koehler, R. Rüsch, P. Schmüser, John Freeman, R. Fohrmann, O. Römer, R. van Staa, H. Burkhardt, J. Reichardt, Georg Zobernig, P. Lecomte, J. Franzkea, and G. Poelz

Subjects

Physics, Photomultiplier, business.industry, Cherenkov detector, DESY, General Medicine, Wavelength shifter, Charged particle, Particle detector, law.invention, Optics, law, business, Storage ring, Cherenkov radiation

Abstract

We describe the gas and erogel threshold Cherenkov counters built for the TASSO experiment at the DESY e + e − storage ring PETRA. The counters are arranged in two diametrically opposed groups as part of the two hadron arms. The gas counters contain Freon 114 and CO 2 respectively; 128 ellipsoidal mirrors focus the Cherenkov light through funnels onto Philips 5″ photomultipliers coated with wavelength shifter. β = 1 charged particles are detected with at least 99.9% efficiency. The aerogel counters are of the diffusing wall type. They have a sensitive area of 12 m 2 , divided into 32 cells and use a total of 192 RCA Quantacon 5″ photomultipliers. The average aerogel refractive index is around 1.025. The efficiency for β = 1 charged particles is 98%. Design considerations, prototype evaluation, construction details, and performance of the final counter system are described.

Published

1981

22. Exclusive proton-antiproton production in two-photon collisions

Author

O. Römer, John Illingworth, H. Hultschig, AS von Dratzig, P. Schmüser, H. Kowalski, B. H. Wiik, P. L. Woodworth, E. Hilger, H. Boerner, P. J. Dornan, I. Al-Agil, R. Brandelik, W. G. Jones, M. Holder, K. Gather, T. D. Jones, U. Karshon, H. M. Fischer, H. L. Lynch, Georg Zobernig, Y. Eisenberg, S. Cooper, Gy. Wolf, W. Koch, J. Rimkus, S Yarker, P. Mättig, W. Braunschweig, H. Hartmann, K. H. Mess, G. Poelz, A. Shapira, J. Pyrlik, Hl Krasemann, R. Wedemeyer, T. R. Wyatt, P. Leu, Norbert Wermes, R.C.E. Devenish, I. C. Brock, D Pandoulas, RA Stern, S. L. Wu, H. U. Martyn, T. Barklow, JK Sedgebeer, M. Wollstadt, D. Revel, J. Proudfoot, P. Grossmann, U. Kötz, K. Lübelsmeyer, Giora Mikenberg, P. Söding, Rj Cashmore, D. M. Binnie, Gl Salmon, M. G. Bowler, D. A. Garbutt, D. Lüke, K. W. Bell, Ehud Duchovni, T. Meyer, B. Foster, F. J. Kirschfink, D. Trines, Juergen Thomas, D. Heyland, A. Ladage, D.W. Schmitz, D. Notz, E.E. Ronat, C. Youngman, H. Burkhardt, A. J. Campbell, G. Knop, R. Fohrmann, L. Köpke, Quarrie, H. G. Sander, Walter Dr. Hillen, G. Peise, Hermann Kolanoski, G. Rudolph, John Freeman, M. Ogg, R. Beuselinck, P. Joos, W. Wallraff, E. Wicklund, R. Riethmüller, D. H. Saxon, J. C. Hart, and Sl Lloyd

Subjects

Nuclear physics, Physics, Nuclear and High Energy Physics, Cross section (physics), Range (particle radiation), Proton, Two-photon excitation microscopy, Scattering, Antiproton, Physics::Accelerator Physics, High Energy Physics::Experiment, Nuclear Experiment, Storage ring

Abstract

Production of proton-antiproton pairs by two-photon scattering has been observed at the electron-position storage ring PETRA. A total of eight proton-antiproton pairs have been identified using the time-of-flight technique. We have measured a total cross section of 4.5 ± 0.8 nb in the photon-photon c.m. energy range 2.0-2.6 GeV. © 1982.

Published

1982

23. Evidence for a spin-1 gluon in three-jet events

Author

T. R. Wyatt, U. Kötz, John Freeman, M. Ogg, D. G. Cassel, B. Löhr, P. Joos, B. Foster, D. A. Garbutt, Walter Dr. Hillen, E. Wicklund, P. Mättig, G. Peise, Ehud Duchovni, H. Boerner, H. Hultschig, J. Pyrlik, Rj Cashmore, C. Youngman, D. Trines, T. Barklow, H. G. Sander, P. Lecomte, B. H. Wiik, John Hart, E. Hilger, Sau Lan Wu, D. R. Quarrie, S. Yarker, W. Wallraff, Hermann Kolanoski, J. K. Sedgbeer, H. M. Fischer, O. Römer, U. Karshon, M. Wollstadt, R. Brandelik, D. M. Binnie, J. Proudfoot, H. L. Lynch, M. A. Downie, V. Kadansky, A. Schultz von Dratzig, E.E. Ronat, P. Koehler, D. Notz, A. Shapira, L. Koepke, D. Pandoulas, Georg Zobernig, G. Knop, W. Koch, Norbert Wermes, H. Kowalski, I. C. Brock, K. Lübelsmeyer, R. A. Stern, P. Söding, M. Holder, R. Rüsch, K. Gather, Y. Eisenberg, G. Poelz, G. Rudolph, R. Riethmüller, K. W. Bell, W. Braunschweig, D. Lüke, D. H. Saxon, R.C.E. Devenish, Gy. Wolf, R. Wedemeyer, F. J. Kirschfink, G. Mikenberg, P. Schmüser, J. Rimkus, P. Grossmann, Stephen Lloyd, H. Hartmann, H. Burkhardt, B. Roe, W. G. Jones, I. Al-Agil, John Illingworth, P. Leu, P. L. Woodworth, Roger Barlow, M. Schliwa, D. Heyland, D.W. Schmitz, D. Revel, Gl Salmon, T. Meyer, P. J. Dornan, A. Ladage, R. Fohrmann, and H. U. Martyn

Subjects

Physics, Nuclear physics, Nuclear and High Energy Physics, Particle physics, Electron–positron annihilation, High Energy Physics::Phenomenology, Hadron, High Energy Physics::Experiment, Kinematics, Nuclear Experiment, Confidence interval, Standard deviation, Gluon

Abstract

High-energy e+e--annihilation events obtained in the TASSO detector at PETRA have been used to determine the spin of the gluon in the reaction e+e- → qqg. We analysed angular correlations between the three jet axes. While vector gluons are consistent with the data (55% confidence limit), scalar gluons are disfavoured by 3.8 standard deviations, corresponding to a confidence level of about 10-4. Our conclusion is free of possible biases due to uncertainties in the fragmentation process or in determining the qqg kinematics from the observed hadrons. © 1980.

Published

1980

24. Energy scan for narrow states in e+e− annihilation at C.M. energies between 29.90 and 31.46 GeV

Author

J. Ringel, P. Schmüser, Gl Salmon, E.E. Ronat, W. Wallraff, M. Wollstadt, D. Pandoulas, T. Meyer, G. Knop, W. G. Jones, John Illingworth, A. Ladage, V. Kadansky, H. L. Lynch, P. L. Woodworth, A. Schultz von Dratzig, John Freeman, J. Rimkus, M. Ogg, K. W. Bell, H. Kowalski, W. Koch, R. Rüsch, C. Youngman, U. Karshon, H. M. Fischer, R. Riethmüller, H. Boerner, G. Poelz, N. A. Downie, Rj Cashmore, H. Hultschig, B. H. Wiik, John Hart, W. Chinowsky, D. M. Binnie, J. Proudfoot, Sau Lan Wu, Georg Zobernig, S. Yanker, P. Leu, Gy. Wolf, D. H. Saxon, P. Mättig, H. G. Sander, A. Shapira, B. Roe, O. Römer, H. Hartmann, D. R. Quarrie, D. Revel, Roger Barlow, M. Schliwa, Norbert Wermes, D. Lüke, Stephen Lloyd, B. Löhr, G. Mikenberg, J. Pyrlik, D. Heyland, P. Joos, B. Foster, D.W. Schmitz, D. G. Cassel, P. Koehler, P. J. Dornan, R. Wedemeyer, D. Notz, R. Fohrmann, K. Lübelsmeyer, P. Söding, Y. Eisenberg, W. Braunschweig, P. Lecomte, U. Kötz, D. A. Garbutt, E. Hilger, R. Brandelik, M. Holder, K. Gather, H. U. Martyn, D. Trines, J. K. Sedgbeer, Walter Dr. Hillen, and G. Peise

Subjects

Nuclear physics, Physics, Hadronic decay, Nuclear and High Energy Physics, Particle physics, Annihilation, Branching fraction, Electron–positron annihilation, ddc:530, High Energy Physics::Experiment, State (functional analysis), Energy (signal processing)

Abstract

A fine energy scan has been performed to search for narrow states in e+e- annihilation at c.m. energies between 29.90 and 31.46 GeV. No such state has been observed. The 90% confidence upper limit on the leptonic decay width times the hadronic decay branching ratio is ΓeeBh

Published

1979

25. INCLUSIVE-P0 PRODUCTION IN E+E- ANNIHILATION AT HIGH-ENERGY

Author

M. Holder, H. Hultschig, B. H. Wiik, John Hart, P. Schmüser, Sau Lan Wu, P. J. Dornan, Gl Salmon, R. J. Cashmore, Y. Eisenberg, K. Lübelsmeyer, P. Söding, W. Braunschweig, J. Harvey, K. H. Mess, R. Wedemeyer, P. Mättig, E.E. Ronat, U. Kötz, I. Al-Agil, T. Meyer, O. Römer, G. Knop, U. Karshon, D. A. Garbutt, D. Heyland, T. Barklow, E. Lohrmann, B. Foster, J. Sedgbeer, A. Ladage, K. W. Bell, H. Boerner, J. Pyrlik, D.W. Schmitz, R. Riethmüller, D. Pandoulas, S. Cooper, F. J. Kirschfink, A. J. Campbell, Ehud Duchovni, M. G. Bowler, E. Hilger, R. Beuselinck, Juergen Thomas, W. G. Jones, John Illingworth, R. Carnegie, R. Fohrmann, R. Brandelik, G. Rudolph, D. R. Quarrie, P. Joos, A. Shapira, P. L. Woodworth, D. H. Saxon, C. Youngman, D. Trines, K. Gather, Norbert Wermes, E. Wicklund, W. Koch, B. Löhr, W. Wallraff, H. Siebke, G. Mikenberg, Hermann Kolanoski, G. Poelz, Sl Lloyd, M. Wollstadt, H. L. Lynch, T. R. Wyatt, I. C. Brock, J. Rimkus, R.C.E. Devenish, M. Dittmar, P. Leu, Hl Krasemann, Gy. Wolf, D. Lüke, P. E. L. Clarke, H. Burkhardt, Walter Dr. Hillen, G. Peise, P. Grossmann, RA Stern, J. Franzke, W. Schütte, T. D. Jones, H. M. Fischer, H. Hartmann, Georg Zobernig, J. Proudfoot, D. Revel, L. Köpke, D. Notz, H. G. Sander, H. Kowalski, H. U. Martyn, and D. M. Binnie

Subjects

Physics, Scattering cross-section, Nuclear physics, Nuclear and High Energy Physics, Particle physics, High energy, Range (particle radiation), Annihilation, Electron–positron annihilation, Hadron

Abstract

We have observed ρ{variant}0 production in e+e- annihilation to hadrons at high energies. The differential cross section at a centre of mass energy W, of 34 GeV, is presented. In the range 0.2< x < 0.7, we measure 0.33 ± 0.06 (stat.) ± 0.07 (syst.), 0.22 ± 0.06 ± 0.05 and 0.22 ± 0.02 ± 0.05 ρ{variant}0/event at W = 14, 22 and 34 GeV respectively. © 1982.

Published

1982

26. CHARGED HADRON COMPOSITION OF THE FINAL-STATE IN E+E- ANNIHILATION AT HIGH-ENERGIES

Author

H. Siebke, T. R. Wyatt, W. Koch, G. Poelz, R.C.E. Devenish, W. Wallraff, U. Karshon, Giora Mikenberg, Walter Dr. Hillen, G. Peise, Gl Salmon, R. Wedemeyer, J. K. Sedgebeer, P. Grossmann, H. Venkataramania, T. Barklow, T. Meyer, Norbert Wermes, H. U. Martyn, D. R. Quarrie, J. Pyrlik, Hl Krasemann, J. Harvey, U. Kötz, Ehud Duchovni, A. Shapira, A. Ladage, R. Carnegie, D. A. Garbutt, E. Hilger, John Freeman, B. Foster, D. M. Binnie, O. Römer, S. J. Cooper, E. Lohrmann, K. Lübelsmeyer, T. D. Jones, H. M. Fischer, D. Pandoulas, H. Kowalski, R. Brandelik, D. H. Saxon, P. Söding, I. C. Brock, W. G. Jones, K. W. Bell, P. Mättig, G. Rudolph, Georg Zobernig, B. Löhr, R. Riethmüller, D. Trines, P. Joos, H. Boerner, Hermann Kolanoski, F. J. Kirschfink, H. Kück, G. Yekutieli, M. G. Bowler, E. Wicklund, P. Leu, C. Youngman, P. Lecomte, Stephen Lloyd, K. H. Mess, E.E. Ronat, H. Burkhardt, G. Knop, John Illingworth, P. Schmüser, P. L. Woodworth, Y. Eisenberg, M. Wollstadt, M. Holder, H. Hultschig, W. Braunschweig, B. H. Wiik, John Hart, Sau Lan Wu, D. Heyland, Rj Cashmore, D.W. Schmitz, P. E. L. Clarke, Gy. Wolf, P. J. Dornan, J. Franzke, A. J. Campbell, Juergen Thomas, J. Rimkus, R. Fohrmann, D. Lüke, J. McCardle, K. Gather, R. Beuselinck, M. Althoff, D. Notz, H. Hartmann, J. Proudfoot, W. Schütte, I. Al-Agil, D. Revel, L. Köpke, and H. G. Sander

Subjects

Physics, Particle physics, Annihilation, Physics and Astronomy (miscellaneous), Meson, Electron–positron annihilation, Hadron, Nuclear Theory, Elementary particle, Baryon, Nuclear physics, Pion, Antiproton, High Energy Physics::Experiment, Nuclear Experiment, Engineering (miscellaneous)

Abstract

The inclusive production of π± and K± mesons and of protons and antiprotons in e+e- annihilation has been measured at c.m. energies of W=14, 22 and 34GeV. Using time of flight measurements and Cerenkov counters the full momentum range has been covered. Differential cross sections and total particle yields are given. At particle momenta of 0.4 GeV/c more than 90% of the charged hadrons are pions. With increasing momentum the fraction of pions among the charged hadrons decreases. At W=34 GeV and a momentum of 5 GeV/c the particle fractions are approximately π±:K±:p, {Mathematical expression}. On average an event at W=34 GeV contains 10.3±0.4π±, 2.0±0.2 K± and 0.8±0.1 p, {Mathematical expression}. In addition, we present results on baryon correlations using a sample of events where two or more protons and/or antiprotons are observed in the final state. © 1983 Springer-Verlag.

Published

1983

27. EVIDENCE FOR PLANAR EVENTS IN E+E- ANNIHILATION AT HIGH-ENERGIES

Author

U. Karshon, A. Pevsner, J. Rimkus, R. Riethmüller, W. Wallraff, E. Kogan, Gl Salmon, T. Meyer, W. Chinowsky, O. Römer, J. Pyrlik, A. Ladage, Lan. Wu Sau, H. L. Lynch, H. U. Martyn, H. M. Fischer, W. Koch, E.E. Ronat, V. Kadansky, A. Shapira, A. Schultz von Dratzig, R. Buhring, G. Poelz, R. Rüsch, Norbert Wermes, Stephen Lloyd, W. Rühmer, P. Lecomte, Roger Barlow, Gy. Wolf, M. Schliwa, K. W. Bell, H. Boerner, C. Youngman, H. Hartmann, W. G. Jones, G. Knop, D. M. Binnie, Georg Zobernig, John Illingworth, R. Wedemeyer, P. L. Woodworth, P. Schmüser, N. A. Downie, Walter Dr. Hillen, D. Revel, D. H. Saxon, G. Peise, K. Lübelsmeyer, P. Söding, J. Ringel, Y. Eisenberg, H. G. Sander, F. Roth, W. Braunschweig, H. Hultschig, B. H. Wiik, S. Yarker, John Hart, D. Notz, P. Mättig, D. R. Quarrie, Rj Cashmore, B. Löhr, J. Proudfoot, P. Joos, B. Foster, D. Lüke, G. Mikenberg, D. Heyland, D.W. Schmitz, P. J. Dornan, M. Holder, K. Gather, H. Kowalski, John Freeman, R. Fohrmann, M. Wollstadt, M. Ogg, J. K. Sedgebeer, W. Korbach, P. Leu, D. Pandoulas, U. Kötz, D. A. Garbutt, E. Hilger, R. Brandelik, and D. Trines

Subjects

Physics, Quark, Nuclear and High Energy Physics, Particle physics, Annihilation, Electron–positron annihilation, Astrophysics::High Energy Astrophysical Phenomena, Hadron, High Energy Physics::Phenomenology, Nuclear Theory, Elementary particle, Jet (particle physics), Gluon, Nuclear physics, Transverse plane, High Energy Physics::Experiment, Nuclear Experiment

Abstract

Hadron jets produced in e+e− annihilation between 13 GeV and 31.6 GeV in c.m. at PETRA are analyzed. The transverse momentum of the jets is found to increase strongly with c.m. energy. The broadening of the jets is not uniform in azimuthal angle around the quark direction but tends to yield planar events with large and growing transverse momenta in the plane and smaller transverse momenta normal to the plane. The simple q q collinear jet picture is ruled out. The observation of planar events shows that there are three basic particles in the final state. Indeed, several events with three well-separated jets of hadrons are observed at the highest energies. This occurs naturally when the outgoing quark radiates a hard noncollinear gluon, i.e., e + e − → q q g with the quarks and the gluons fragmenting into hadrons with limited transverse momenta.

Published

1979

28. π0 production by e+e- annihilation at 14 and 34 GeV c.m. energy

Author

Hl Krasemann, W. G. Jones, M. Holder, K. Gather, D Pandoulas, G. Mikenberg, T. Barklow, E.E. Ronat, D. Trines, G. Knop, P. Grossmann, Juergen Thomas, B. Foster, J. Sedgbeer, W. Wallraff, Hermann Kolanoski, T. D. Jones, H. Hultschig, B. H. Wiik, John Hart, R.C.E. Devenish, P. J. Dornan, Gl Salmon, D. Notz, R. Wedemeyer, T. R. Wyatt, Norbert Wermes, S. L. Wu, T. Meyer, R. J. Cashmore, Ehud Duchovni, M. G. Bowler, U. Kötz, D. Lüke, Y. Eisenberg, D. A. Garbutt, Walter Dr. Hillen, F. J. Kirschfink, G. Peise, A. Ladage, W. Braunschweig, C. Youngman, H. Hartmann, H. Boerner, P. Leu, W. Koch, L. Köpke, J. Proudfoot, R. Beuselinck, E. Hilger, D. Heyland, H. G. Sander, K. Lübelsmeyer, D.W. Schmitz, A. Shapira, P. Söding, Quarrie, G. Poelz, R. Brandelik, A. J. Campbell, R. Fohrmann, D. Revel, I. C. Brock, K. H. Mess, O. Römer, John Freeman, M. Ogg, G. Rudolph, P. Joos, E. Wicklund, I. Al-Agil, U. Karshon, Gy. Wolf, H. Burkhardt, P. Schmüser, RA Stern, J. Pyrlik, H. Kowalski, D. H. Saxon, Sl Lloyd, R. Riethmüller, S. Cooper, M. Wollstadt, H. U. Martyn, D. M. Binnie, J. Rimkus, John Illingworth, P. L. Woodworth, H. L. Lynch, K. W. Bell, S Yarker, P. Mättig, AS von Dratzig, H. M. Fischer, and Georg Zobernig

Subjects

Nuclear physics, Physics, Nuclear and High Energy Physics, Particle physics, Annihilation, Production (computer science), Energy (signal processing), Lower energy

Abstract

The process e+e-→ π0 + anything has been measured at c.m. energies of 14 and 34 GeV for π0 energies between 0.5 and 4 GeV. The ratio of π0 to π± production for π momenta between 0.5 and 1.5 GeV/c is measured to be 2σ(π0)/ [σ(π+) + σ(π-)] = 1.3 ± 0.4 (1.2 ± 0.4) at 14 (34) GeV. The scaled cross section (s/μ)dσ/dx when compared with lower energy (4.9-7.4 GeV) π0 data indicates a substantial scaling violation. © 1982.

Published

1982

29. COMPARISON OF E+E- ANNIHILATION WITH QCD AND DETERMINATION OF THE STRONG COUPLING-CONSTANT

Author

V. Kadansky, D. Trines, R. Rüsch, D. Lüke, H. L. Lynch, G. Mikenberg, A. Schultz von Dratzig, H. G. Sander, H. Kowalski, D. G. Cassel, W. G. Jones, M. Holder, K. Gather, J. Pyrlik, P. Grossmann, D. Heyland, W. Wallraff, H. Hartmann, O. Römer, D.W. Schmitz, M. Wollstadt, B. Roe, John Freeman, E.E. Ronat, Gl Salmon, Kw Bell, Gy. Wolf, Walter Dr. Hillen, John Illingworth, B. Foster, G. Peise, N. A. Downie, P. L. Woodworth, M. Ogg, Rj Cashmore, G. Knop, D. Revel, P. Schmüser, J. Sedgbeer, R. Fohrmann, H. Boerner, T. Meyer, J. Rimkus, H. M. Fischer, J. Proudfoot, S. Yarker, H. Hultschig, H. Burkhardt, A. Ladage, N Wermes, L. Koepke, B. H. Wiik, B. Löhr, R. Riethmüller, T. R. Wyatt, P. Joos, A. Shapira, I. C. Brock, Sau Lan Wu, P. J. Dornan, P. Koehler, R. Wedemeyer, G Zobernig, P. Leu, P. Mättig, D. Notz, D. R. Quarrie, Roger Barlow, M. Schliwa, D. H. Saxon, Y. Eisenberg, C. Youngman, U. Karshon, J. C. Hart, D. Pandoulas, Stephen Lloyd, D. M. Binnie, Hu Martyn, W. Braunschweig, P. Lecomte, R.C.E. Devenish, W. Koch, G. Poelz, K. Lübelsmeyer, P. Söding, U. Kötz, D. A. Garbutt, E. Hilger, and R. Brandelik

Subjects

Coupling constant, Quantum chromodynamics, Quark, Physics, Nuclear and High Energy Physics, Particle physics, Annihilation, Electron–positron annihilation, High Energy Physics::Phenomenology, Hadron, Gluon, Nuclear physics, Fragmentation (mass spectrometry), High Energy Physics::Experiment, Nuclear Experiment

Abstract

We have analyzed 1113 events of the reaction e+e− → hadrons at CM energies of 12 and 30 GeV in order to make a detailed comparison with QCD. Perturbative effects can be well separated from effects depending on the quark and gluon fragmentation parameters to yield a reliable measurement of the coupling constant αS. At 30 GeV, the result is αS = 0.17 ± 0.02 (statistical) ± 0.03 (systematic). QCD model predictions, using the fragmentation parameters determined along with αS, agree with both gross properties of the final states and with detailed features of the three-jet states.

Published

1980

30. PRODUCTION AND PROPERTIES OF THE TAU-LEPTON IN E+E- ANNIHILATION AT CM ENERGIES FROM 12-GEV TO 31.6-GEV

Author

H. M. Fischer, W. Wallraff, M. Holder, K. Gather, Georg Zobernig, Gl Salmon, I. C. Brock, W. Koch, P. Lecomte, D. Trines, D. H. Saxon, T. Meyer, G. Poelz, P. Koehler, D. Pandoulas, P. Mättig, Y. Eisenberg, N. A. Downie, Stephen Lloyd, J. K. Sedgbeer, A. Ladage, D. Lüke, W. Braunschweig, R. Riethmüller, Walter Dr. Hillen, Rj Cashmore, G. Peise, B. Roe, O. Römer, J. Pyrlik, R.C.E. Devenish, G. Mikenberg, D. G. Cassel, H. Hartmann, Roger Barlow, M. Schliwa, S. Yarker, D. R. Quarrie, D. Heyland, P. Grossmann, D. Revel, J. Proudfoot, H. L. Lynch, H. U. Martyn, A. Schultz von Dratzig, C. Youngman, T. R. Wyatt, D.W. Schmitz, P. Schmüser, M. Wollstadt, K. Lübelsmeyer, H. Boerner, K. W. Bell, John Freeman, M. Ogg, P. J. Dornan, P. Söding, V. Kadansky, H. Kowalski, D. Notz, U. Karshon, E. Hilger, R. Rüsch, R. Wedemeyer, B. Löhr, Gy. Wolf, R. Fohrmann, P. Joos, R. Brandelik, B. Foster, U. Kötz, P. Leu, D. A. Garbutt, H. Hultschig, B. H. Wiik, John Hart, Sau Lan Wu, A. Shapira, E.E. Ronat, G. Knop, Norbert Wermes, D. M. Binnie, J. Rimkus, W. G. Jones, John Illingworth, P. L. Woodworth, and H. G. Sander

Subjects

Physics, Nuclear physics, Nuclear and High Energy Physics, Particle physics, Annihilation, Cutoff, High Energy Physics::Experiment, Lepton

Abstract

We have observed τ production in e+e- annihilation at centre-of-mass energies between 12 and 31.6 GeV with cross sections in agreement with the QED τ-pair cross section. Branching ratios for τ decay have been measured and are consistent with the world averages. We have determined the cutoff parameters of QED Λ+ (Λ-) to be > 73 GeV (82 GeV) and have obtained an upper limit on the τ lifetime of 1.4 × 10-12 s(95% CL). © 1980.

Published

1980

31. EVIDENCE FOR CHARGED PRIMARY PARTONS IN E+E--]2 JETS

Author

W. G. Jones, M. Holder, K. Gather, E.E. Ronat, P. Grossmann, G. Knop, D. Trines, D. G. Cassel, R. A. Stern, U. Kötz, H. L. Lynch, B. Foster, J. Sedgbeer, D. A. Garbutt, D. Lüke, E. Hilger, Walter Dr. Hillen, P. Mättig, W. Braunschweig, Hermann Kolanoski, H. G. Sander, G. Mikenberg, A. Schultz von Dratzig, D. Heyland, R. Wedemeyer, G. Peise, D.W. Schmitz, Gl Salmon, F. J. Kirschfink, P. Koehler, R. Brandelik, T. Barklow, T. Meyer, I. Al-Agil, D. R. Quarrie, T. R. Wyatt, H. Hultschig, V. Kadansky, John Freeman, R. Riethmüller, B. H. Wiik, H. M. Fischer, Ehud Duchovni, D. Notz, P. Lecomte, S. Yarker, L. Koepke, Sau Lan Wu, John Illingworth, P. J. Dornan, M. Ogg, D. Revel, Kw Bell, M. Wollstadt, R. Beuselink, R. Fohrmann, O. Römer, P. Schmüser, H. Kowalski, R.C.E. Devenish, P. L. Woodworth, A. Ladage, R. Rüsch, I. C. Brock, G Zobernig, N Wermes, J. Rimkus, Y. Eisenberg, P. Leu, G. Rudolph, P. Joos, C. Youngman, Hu Martyn, H. Boerner, K. Lübelsmeyer, P. Söding, E. Wicklund, Rj Cashmore, D. H. Saxon, H. Hartmann, D. Pandoulas, J. C. Hart, J. Proudfoot, Sl Lloyd, A. Shapira, W. Wallraff, W. Koch, G. Poelz, Gy. Wolf, H. Burkhardt, U. Karshon, D. M. Binnie, and J. Pyrlik

Subjects

Nuclear physics, Physics, Nuclear and High Energy Physics, Particle physics, Primary (astronomy), Electron–positron annihilation, Parton

Published

1981

32. K0-PRODUCTION IN E+E- ANNIHILATIONS AT 30 GEV CENTER OF MASS-ENERGY

Author

L. Koepke, H. Hultschig, Gl Salmon, B. H. Wiik, I. C. Brock, Sau Lan Wu, T. Meyer, J. Pyrlik, G Zobernig, W. Braunschweig, P. J. Dornan, M. Wollstadt, A. Ladage, P. Lecomte, Hu Martyn, P. Leu, Rj Cashmore, H. L. Lynch, U. Kötz, W. Koch, E.E. Ronat, G. Knop, A. Schultz von Dratzig, Kw Bell, B. Löhr, D. A. Garbutt, P. Schmüser, U. Karshon, O. Römer, G. Poelz, D. Trines, D. G. Cassel, R. Riethmüller, D. Lüke, H. Boerner, P. Joos, R.C.E. Devenish, D. Pandoulas, H. Kowalski, G. Mikenberg, B. Roe, K. Lübelsmeyer, P. Söding, P. Koehler, Gy. Wolf, R. Wedemeyer, E. Hilger, D. Heyland, P. Mättig, Y. Eisenberg, A. Shapira, D.W. Schmitz, C. Youngman, R. Brandelik, D. Notz, T. R. Wyatt, N Wermes, Roger Barlow, M. Schliwa, D. R. Quarrie, H. M. Fischer, D. H. Saxon, H. Burkhardt, N. A. Downie, J. Rimkus, R. Fohrmann, Walter Dr. Hillen, G. Peise, J. C. Hart, Sl Lloyd, S. Yarker, D. Revel, W. Wallraff, B. Foster, John Illingworth, P. L. Woodworth, D. M. Binnie, J. Sedgbeer, H. Hartmann, J. Proudfoot, V. Kadansky, H. G. Sander, John Freeman, M. Ogg, R. Rüsch, P. Grossmann, W. G. Jones, M. Holder, and K. Gather

Subjects

Nuclear physics, Physics, Nuclear and High Energy Physics, Particle physics, Annihilation, Production (computer science), Center of mass, Scaling, Energy (signal processing)

Abstract

Inclusive K0-production has been measured in e+e- annihilation at a center of mass energy of about W = 30 GeV. The ratio of K0 + K0 production to μ+μ- production is RK0 = 5.6 ± 1.1 (statist. error) ± 0.8 (system.error) This value is about a factor of three higher than RK0 at W = 7 GeV. The cross sections (s/β) dσ/dx is consistent with a scaling behaviour.

Published

1980

33. Charge asymmetry and weak interaction effects in e+e-→μ+μ- and e+e-→τ+τ

Author

M. Wollstadt, J. Pyrlik, H. Hultschig, K. H. Mess, B. H. Wiik, Norbert Wermes, H. L. Lynch, E. Hilger, R. Brandelik, Sau Lan Wu, P. J. Dornan, Ehud Duchovni, W. G. Jones, M. Holder, K. Gather, J. Rimkus, Gl Salmon, H. U. Martyn, D. H. Saxon, K. W. Bell, R.C.E. Devenish, U. Kötz, D. A. Garbutt, C. Youngman, T. Meyer, D. R. Quarrie, Walter Dr. Hillen, D. Notz, E.E. Ronat, D. Heyland, B. Foster, J. Sedgbeer, G. Peise, K. Lübelsmeyer, P. Söding, John Freeman, M. Ogg, P. Schmüser, O. Römer, G. Knop, J. C. Hart, Sl Lloyd, A. Ladage, D.W. Schmitz, D. M. Binnie, Juergen Thomas, A. Shapira, S Yarker, W. Koch, A. J. Campbell, S. Cooper, R. Riethmüller, I. C. Brock, Rj Cashmore, G. Poelz, H. M. Fischer, Y. Eisenberg, Giora Mikenberg, W. Braunschweig, H. Hartmann, R. Fohrmann, P. Grossmann, W. Wallraff, M. G. Bowler, F. J. Kirschfink, G. Rudolph, Georg Zobernig, D. Trines, J. Proudfoot, John Illingworth, P. L. Woodworth, J. Harvey, T. D. Jones, R. Wedemeyer, D. Pandoulas, T. Barklow, Hermann Kolanoski, P. Mättig, H. Boerner, R. Beuselinck, P. Leu, Hl Krasemann, B. Löhr, T. R. Wyatt, P. Joos, D. Lüke, E. Wicklund, H. Kowalski, L. Köpke, H. G. Sander, I. Al-Agil, U. Karshon, R. Carnegie, H. Burkhardt, D. Revel, Gy. Wolf, and RA Stern

Subjects

Nuclear physics, Physics, Nuclear and High Energy Physics, Neutral current, Coupling strength, Electron–positron annihilation, media_common.quotation_subject, Analytical chemistry, Charge (physics), Weak interaction, Asymmetry, Pseudovector, media_common

Abstract

We have measured, at an average centre-of-mass energy of 34.22 GeV a forward-backward charge asymmetry in the reaction e + e − → μ + μ − of value −0.161 ± 0.032. This demonstrates the existence of an axial vector neutral current with coupling strength of g e a g μ a =0.53 ± 0.10. We have also obtained a limit on the vector coupling strength of g e v g μ v 2 θ W =0.29 +0.09 −0.11 . From the reaction e + e − → τ + τ − we have found g e a g τ a g e v g τ v

Published

1982

34. SCALE BREAKING IN INCLUSIVE CHARGED-PARTICLE PRODUCTION BY E+E- ANNIHILATION

Author

J. Pyrlik, Walter Dr. Hillen, G. Peise, D. Heyland, D.W. Schmitz, K. Lübelsmeyer, P. Söding, Rj Cashmore, A. J. Campbell, S Yarker, E. Hilger, E. Lohrmann, W. Braunschweig, W. Schütte, R. Fohrmann, B. Foster, J. Sedgbeer, G. Rudolph, T. D. Jones, R. Wedemeyer, R. Brandelik, D. Notz, M. G. Bowler, Gl Salmon, H. L. Lynch, M. Wollstadt, Kw Bell, P. Schmüser, T. Barklow, O. Römer, D. Revel, F. J. Kirschfink, B. Löhr, H. Kowalski, W. Koch, T. Meyer, H. Hultschig, D. M. Binnie, Ehud Duchovni, L. Köpke, B. H. Wiik, P. J. Dornan, P. Grossmann, I. C. Brock, Hl Krasemann, Y. Eisenberg, U. Kötz, G. Poelz, G Zobernig, John Illingworth, C. Youngman, A. Shapira, D. A. Garbutt, D. Trines, A. Ladage, S. L. Wu, W. G. Jones, P. Joos, R.C.E. Devenish, M. Holder, K. Gather, P. L. Woodworth, H. G. Sander, Hermann Kolanoski, E.E. Ronat, G. Knop, H. Hartmann, I. Al-Agil, E. Wicklund, K. H. Mess, H. Boerner, J. Proudfoot, S. Cooper, U. Karshon, J. Rimkus, R. Beuselinck, John Freeman, M. Ogg, N Wermes, R. Carnegie, H. M. Fischer, Juergen Thomas, P. Mättig, Gy. Wolf, D. H. Saxon, H. Burkhardt, RA Stern, J. Franzke, J. C. Hart, Sl Lloyd, W. Wallraff, J. Harvey, D. Pandoulas, R. Riethmüller, T. R. Wyatt, Hu Martyn, Quarrie, D. Lüke, G. Mikenberg, and P. Leu

Subjects

Nuclear physics, Physics, Nuclear and High Energy Physics, Particle physics, Cross section (physics), Transverse plane, Annihilation, Angular distribution, Scale (ratio), Electron–positron annihilation, Production (computer science), Charged particle

Abstract

The scale cross section s d σ d x p for inclusive charged-particle production in e+e− annihilation has been studied for c.m. energies W between 12.0 and 36.7 GeV. Scale breaking is observed. For xp>0.2 the cross section decreases by ≈20% when W increases from 14 to 35 GeV. The production angular distribution was used to separate the longitudinal and transverse cross-section contributions and to determine the ratio of the structure functions m W 1 and v W 2 .

Published

1982

35. TEST OF QED IN E+E- ANNIHILATION AT ENERGIES BETWEEN 12 AND 31.6 GEV

Author

J. Pyrlik, D. H. Saxon, K. Lüberlsmeyer, Gl Salmon, U. Kötz, P. Koehler, H. Burkhardt, P. Grossmann, J. C. Hart, D. Notz, Kw Bell, Sl Lloyd, D. A. Garbutt, P. Schmüser, T. Meyer, P. Leu, W. Wallraff, H. Hartmann, H. Hultschig, O. Römer, B. H. Wiik, A. Ladage, H. L. Lynch, Sau Lan Wu, P. J. Dornan, W. Koch, D. Pandoulas, A. Schultz von Dratzig, M. Wollstadt, J. Proudfoot, B. Foster, G. Piese, D. Heyland, G. Poelz, A. Shapira, J. Sedgbeer, W. G. Jones, V. Kadansky, M. Holder, Rj Cashmore, K. Gather, D.W. Schmitz, R. Riethmüller, D. G. Cassel, H. Boerner, R.C.E. Devenish, R. Rüsch, Hu Martyn, P. Söding, Y. Eisenberg, C. Youngman, R. Wedemeyer, W. Braunschweig, E.E. Ronat, D. M. Binnie, Roger Barlow, M. Schliwa, E. Hilger, R. Fohrmann, U. Karshon, G. Knop, Gy. Wolf, L. Koepke, P. Lecomte, John Illingworth, T. R. Wyatt, R. Brandelik, I. C. Brock, G Zobernig, P. L. Woodworth, D. Lüke, G. Mikenberg, N. A. Downie, H. Kowalski, H. M. Fischer, J. Rimkus, P. Mättig, D. R. Quarrie, Walter Dr. Hillen, S. Yarker, N Wermes, B. Roe, D. Trines, D. Revel, John Freeman, M. Ogg, B. Löhr, H. G. Sander, and P. Joos

Subjects

Physics, Nuclear physics, Nuclear and High Energy Physics, Particle physics, Annihilation, Weinberg angle

Abstract

We have measured the reactions e+e− → e+e− → μ+μ− and e+e− → γγ at c.m. energies between 12 and 31.6 GeV. Excellent agreement with the predictions of QED has been found, resulting in cut off parameters Λ+ > 112 GeV and Λ− > 139 GeV for the first process and Λ+ > 34 GeV and Λ− > 42 GeV (95% c.1.) for the last one. A limit on the Weinberg angle of sin2θW < 0.55 (95% c.1.) has been obtained.

Published

1980

36. Two photon results from TASSO

Author

C. Youngman, R.C.E. Devenish, E.E. Ronat, Gl Salmon, H. L. Lynch, J. Rimkus, N. A. Downie, B. Roe, T. Meyer, H. U. Martyn, H. Hartmann, G. Knop, H. Fischer, R. Wedemeyer, Guenter Wolf, A. Ladage, M. Wollstadt, Norbert Wermes, D. Pandoulas, D. G. Cassel, Roger Barlow, B. Löhr, A. Shapira, M. Schliwa, H. Boerner, P. Joos, Georg Zobernig, T. R. Wyatt, M. Holder, P. Leu, R. Riethmüller, A. Schultz von Dratzig, B. Foster, H. Hultschig, P. Grossmann, U. Karshon, K. W. Bell, B. H. Wiik, John Hart, W. G. Jones, V. Kadansky, D. Revel, L. Koepke, Sau Lan Wu, J. Proudfoot, G. Mikenberg, I. C. Brock, K. Gather, John Illingworth, P. Mättig, D. Notz, J. Pyrlik, P. L. Woodworth, D. H. Saxon, D. Lüke, R. Rüsch, M. Ogg, W. Koch, D. M. Binnie, H. G. Sander, D. R. Quarrie, D. Heyland, G. Poelz, D.W. Schmitz, H. Kowalski, P. J. Dornan, Stephen Lloyd, R. Fohrmann, D. Trines, P. Schmüser, R. J. Cashmore, W. Wallraff, U. Kötz, Hermann Kolanoski, J. K. Sedgbeer, D. A. Garbutt, E. Hilger, P. Koehler, R. Brandelik, K. Lübelsmeyer, P. Söding, Walter Dr. Hillen, G. Peise, P. Lecomte, J. Freemann, S. Yarker, Y. Eisenberg, W. Braunschweig, and O. Römer

Subjects

Physics, Nuclear physics, Annihilation, Two-photon excitation microscopy, Physics::Plasma Physics, Detector, Computer Science::Computation and Language (Computational Linguistics and Natural Language and Speech Processing), High Energy Physics::Experiment, Invariant mass, Physics::History of Physics, Storage ring

Abstract

Two photon annihilation processes were observed with the TASSO detector at the e+e- storage ring PETRA. We report on the analyses of untagged and single tag events.

Published

1980

37. HIGH PT HADRON-PRODUCTION IN PHOTON-PHOTON COLLISIONS

Author

H. M. Fischer, Y. Eisenberg, M. Wollstadt, U. Karshon, W. Braunschweig, Gl Salmon, T. Meyer, Georg Zobernig, J. Rimkus, M. Holder, A. Ladage, K. Gather, G. Mikenberg, R. Beuselinck, I. Al-Agil, P. Lecomte, J. Pyrlik, P. Joos, B. Foster, P. L. Woodwarth, H. Hartmann, O. Römer, E.E. Ronat, G. Rudolph, T. Barklow, D. Revel, E. Wicklund, G. Knop, D. Lüke, S. Cooper, L. Köpke, R. A. Stern, K. Lübelsmeyer, H. L. Lynch, P. Söding, H. Kowalski, P. Schmüser, Walter Dr. Hillen, G. Peise, P. Grossmann, A. Schultz von Dratzig, H. G. Sander, Hl Krasemann, D. R. Quarrie, R.C.E. Devenish, J. Proudfoot, K. W. Bell, P. Mättig, A. Shapira, F. J. Kirschfink, John Freeman, P. Leu, Juergen Thomas, D. Pandoulas, M. Ogg, S. Yarker, T. D. Jones, D. H. Saxon, H. Hultschig, B. H. Wiik, John Hart, Sau Lan Wu, D. Heyland, H. U. Martyn, R. Riethmüller, D.W. Schmitz, I. C. Brock, W. G. Jones, P. J. Dornan, Stephen Lloyd, A. J. Campbell, Gy. Wolf, K. H. Mess, R. Wedemeyer, John Illingworth, W. Koch, C. Youngman, R. Fohrmann, Ehud Duchovni, H. Boerner, G. Poelz, D. Notz, H. Burkhardt, R. Rüsch, T. R. Wyatt, D. Trines, M. G. Bowler, W. Wallraff, Hermann Kolanoski, J. K. Sedgbeer, E. Hilger, D. M. Binnie, R. Brandelik, Norbert Wermes, R. J. Cashmore, U. Kötz, and D. A. Garbutt

Subjects

Coupling, Nuclear physics, Quark, Physics, Nuclear and High Energy Physics, Particle physics, Transverse plane, Cross section (physics), Photon, Scattering, Hadron, High Energy Physics::Experiment, Storage ring

Abstract

We have studied the properties of hadron production in photon-photon scattering with tagged photons at the e+e- storage ring PETRA. A tail in the pT distribution of particles consistent with pT-4 has been observed. We show that this tail cannot be due to the hadronic part of the photon. Selected events with high pT particles are found to be consistent with a two-jet structure as expected from a point-like coupling of the photons to quarks. The lowest-order cross section predicted for γγ → qq, σ = 3 Σ eq4 · σγγ → μμ, is approached from above by the data at large transverse momenta. © 1981.

Published

1981

38. CHARGED PION, KAON, PROTON AND ANTIPROTON PRODUCTION IN HIGH-ENERGY E+E- ANNIHILATIONS

Author

R.C.E. Devenish, Walter Dr. Hillen, G. Peise, Gl Salmon, B. Roe, Rj Cashmore, H. M. Fischer, John Freeman, Gy. Wolf, W. Braunschweig, E. Hilger, S. Yarker, M. Ogg, D. Heyland, N. A. Downie, T. Meyer, D.W. Schmitz, A. Ladage, P. Lecomte, P. Grossmann, W. Wallraff, J. Pyrlik, H. Burkhardt, W. G. Jones, M. Holder, K. Gather, H. Hartmann, H. L. Lynch, D. Pandoulas, Roger Barlow, M. Schliwa, A. Schultz von Dratzig, E.E. Ronat, R. Brandelik, R. Wedemeyer, J. Proudfoot, Y. Eisenberg, G. Knop, D. Revel, C. Youngman, D. G. Cassel, Hu Martyn, K. Lübelsmeyer, L. Koepke, A. Shapira, H. Kowalski, B. Foster, P. Söding, J. Sedgbeer, I. C. Brock, G Zobernig, U. Karshon, W. Koch, U. Kötz, P. Koehler, D. A. Garbutt, G. Poelz, P. Mättig, D. Notz, H. G. Sander, V. Kadansky, O. Römer, Kw Bell, D. R. Quarrie, R. Fohrmann, D. Lüke, G. Mikenberg, D. Trines, R. Rüsch, P. Schmüser, R. Riethmüller, B. Löhr, P. Leu, P. Joos, H. Hultschig, Hermann Kolanoski, B. H. Wiik, H. Boerner, Sau Lan Wu, P. J. Dornan, N Wermes, D. H. Saxon, J. C. Hart, Sl Lloyd, D. M. Binnie, John Illingworth, T. R. Wyatt, P. L. Woodworth, M. Wollstadt, and J. Rimkus

Subjects

Physics, Nuclear and High Energy Physics, Particle physics, Proton, Nuclear Theory, Hadron, Nuclear physics, Baryon, Momentum, Time of flight, Pion, Antiproton, Yield (chemistry), High Energy Physics::Experiment, Nuclear Experiment

Abstract

Production of pions, kaons, protons and antiprotons has been studied in e + e − annihilations at 12 and 30 GeV centre of mass energy using time of flight techniques. The fractional yield of charged kaons and baryons appears to rise with outgoing particle momentum. At our highest energy at least 40% of e + e − annihilations into hadrons are estimated to contain baryons.

Published

1980

39. PROPERTIES OF HADRON FINAL-STATES IN E+E- ANNIHILATION AT 13 GEV AND 17 GEV CENTER OF MASS ENERGIES

Author

E.E. Ronat, H. Hartmann, G. Knop, Rj Cashmore, E. Hilger, J. Proudfoot, O. Römer, W. Rühmer, Gl Salmon, R. Brandelik, D. Heyland, D.W. Schmitz, T. Meyer, W. Wallraff, P. J. Dornan, Kadansky, R. Rüsch, J. Ringel, R. Buhring, U. Kötz, A. Ladage, Walter Dr. Hillen, J. Pyrlik, R. Fohrmann, D. A. Garbutt, G. Peise, H. M. Fischer, Stephen Lloyd, H. Kowalski, H. Hultschig, D. Pandoulas, F. Roth, B. H. Wiik, John Hart, D. M. Binnie, Georg Zobernig, Sau Lan Wu, P. Schmüser, B. Jaax, Roger Barlow, M. Schliwa, N. A. Downie, W. Korbach, Quarrie, D. H. Saxon, U. Karshon, M. Wollstadt, C. Youngman, D. Notz, Gy. Wolf, Norbert Wermes, R. Riethmüller, H. L. Lynch, W. Chinowsky, A. Schultz von Dratzig, K. W. Bell, D. Lüke, G. Mikenberg, R. Wedemeyer, D. Trines, J. Rimkus, H. Boerner, H. U. Martyn, John Freeman, E. Kogan, M. Ogg, W. G. Jones, John Illingworth, P. L. Woodworth, A. Shapira, K. Gather, B. Löhr, P. Joos, B. Foster, W. Koch, G. Poelz, K. Lübelsmeyer, P. Söding, P. Lecomte, Y. Eisenberg, W. Braunschweig, H. G. Sander, D. Revel, and 0 Pre-GFZ, Departments, GFZ Publication Database, Deutsches GeoForschungsZentrum

Subjects

Physics, Nuclear and High Energy Physics, Particle physics, Annihilation, Electron–positron annihilation, Astrophysics::High Energy Astrophysical Phenomena, Quark model, Hadron, Elementary particle, 550 - Earth sciences, Jet (particle physics), Charged particle, Nuclear physics, High Energy Physics::Experiment, Center of mass, Nuclear Experiment

Abstract

We have observed e+e- hadrons at C.M. energies of 13 GeV and 17 GeV at PETRA using the TASSO detector. We find R(13 GeV) = 5.6 ± 0.7 and R(17 GeV) = 4.0 ± 0.7. The additional systematic uncertainty is 20%. Comparing inclusive charged hadron spectra we observe scaling between 5 GeV and 17 GeV for x = p/pbeam > 0.2; however the 13 GeV cross section is above the 17 GeV cross section for smaller x. This may be due to copious bb̄ production. The events become increasingly jet like at high energies as evidenced by a shrinking sphericity distribution with increasing energy. © 1979.

Published

1979

40. Two-photon excitation of the tensor meson f0(1270)

Author

R.C.E. Devenish, Walter Dr. Hillen, G. Peise, R. Wedemeyer, R. J. Cashmore, T. Barklow, W. Koch, D. Trines, G. Poelz, S. Yarker, H. M. Fischer, P. Mättig, U. Karshon, Georg Zobernig, D. R. Quarrie, Y. Eisenberg, D. M. Binnie, U. Kötz, R. Riethmüller, C. Youngman, G. Rudolph, P. Joos, Ehud Duchovni, D. Pandoulas, B. Foster, D. G. Cassel, P. Koehler, D. A. Garbutt, S. Cooper, E. Wicklund, W. Braunschweig, D. Heyland, W. Wallraff, D.W. Schmitz, L. Köpke, John Freeman, M. Ogg, Hermann Kolanoski, J. K. Sedgbeer, P. Grossmann, Norbert Wermes, D. Notz, H. G. Sander, R. Rüsch, A. Shapira, O. Römer, Gl Salmon, M. Holder, K. Gather, K. Lübelsmeyer, P. Söding, P. J. Dornan, G. Mikenberg, I. Al-Agil, R. Beuselinck, H. Burkhardt, T. Meyer, M. Wollstadt, D. Revel, P. Schmüser, T. R. Wyatt, P. Lecomte, H. Hartmann, A. Ladage, R. Fohrmann, E. Hilger, J. Pyrlik, Stephen Lloyd, R. Brandelik, H. L. Lynch, A. Schultz von Dratzig, I. C. Brock, P. Leu, Gy. Wolf, D. Lüke, H. Boerner, W. G. Jones, H. U. Martyn, John Illingworth, P. L. Woodworth, J. Rimkus, H. Kowalski, K. W. Beli, J. Proudfoot, D. H. Saxon, E.E. Ronat, G. Knop, R. A. Stern, H. Hultschig, B. H. Wiik, John Hart, Sau Lan Wu, and F. J. Kirschfink

Subjects

Physics, Nuclear physics, Pair production, Physics and Astronomy (miscellaneous), Meson, Scattering, Invariant mass, Atomic physics, Engineering (miscellaneous), Excitation, Storage ring, Charged particle, Lepton

Abstract

We have measured charged particle pair production in two-photon scattering at the e+e- storage ring PETRA. While the main source of such events is the production of lepton pairs, the presence of an additional process is clearly indicated by the measured invariant mass distribution of the two particles and their angular distributions. We determine that the excess is mainly due to the decay f0(1270)→π+π-. We derive a width Γ(f0→γγ)=3.2±0.2±0.6 keV (statistical and systematic). © 1981 Springer-Verlag.

Published

1981

41. The transition between coastal and offshore areas in the North Sea unraveled by suspended particle composition.

Author

Desmit X, Schartau M, Riethmüller R, Terseleer N, Van der Zande D, and Fettweis M

Abstract

Identifying the mechanisms that contribute to the variability of suspended particulate matter concentrations in coastal areas is important but difficult, especially due to the complexity of physical and biogeochemical interactions involved. Our study addresses this complexity and investigates changes in the horizontal spread and composition of particles, focusing on cross-coastal gradients in the southern North Sea and the English Channel. A semi-empirical model is applied on in situ data of SPM and its organic fraction to resolve the relationship between organic and inorganic suspended particles. The derived equations are applied onto remote sensing products of SPM concentration, which provide monthly synoptic maps of particulate organic matter concentrations (here, particulate organic nitrogen) at the surface together with their labile and less reactive fractions. Comparing these fractions of particulate organic matter reveals their characteristic features along the coastal-offshore gradient, with an area of increased settling rate for particles generally observed between 5 and 30 km from the coast. We identify this area as the transition zone between coastal and offshore waters with respect to particle dynamics. Presumably, in that area, the turbulence range and particle composition favor particle settling, while hydrodynamic processes tend to transport particles of the seabed back towards the coast. Bathymetry plays an important role in controlling the range of turbulent dissipation energy values in the water column, and we observe that the transition zone in the southern North Sea is generally confined to water depths below 20 m. Seasonal variations in suspended particle dynamics are linked to biological processes enhancing particle flocculation, which do not affect the location of the transition zone. We identify the criteria that allow a transition zone and discuss the cases where it is not observed in the domain. The impact of these particle dynamics on coastal carbon storage and export is discussed., Competing Interests: Declaration of competing interest To their best knowledge, the Authors do not have any actual or potential conflict of interest including any financial, personal or other relationships with other people or organizations within three years of beginning the submitted work that could inappropriately influence, or be perceived to influence, their work., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

42. Sample based water quality monitoring of coastal seas: How significant is the information loss in patchy time series compared to continuous ones?

Author

Fettweis M, Riethmüller R, Van der Zande D, and Desmit X

Abstract

The high temporal and spatial variability of tidal dominated coastal areas poses a challenge for characterising water quality. Water quality monitoring relies often on information collected by water sampling from a vessel or by satellites, and covers limited time periods and therefore limited tidal and meteorological conditions. To assess the loss of information from discrete sampling, continuous time series of one year (suspended particulate matter (SPM) concentration, SPM flux and Chlorophyll a (Chl) concentration) were used. Eight different schemes of sampling into these time series were applied that are typical for many monitoring programs. They differ in the time between sampling events (synodic or half-synodic) and the duration of the sampling (tidal cycle, half a tidal cycle, one or more samples). The information loss was quantified by applying a bootstrap method to calculate the mean and standard deviation over the considered period. These were then compared with the true mean calculated from the continuous series. The probability to match the true mean within a certain margin depends on the sampling period and the season, but it is always low, especially if the allowed uncertainty is stringent (e.g., ±2.5 % about the true mean). For the SPM concentration this probability is lower than 10 % and for Chl concentration lower than 20 %. Similarly, conclusions arise for the detection of trends in a 20 year time series of SPM concentration with an artificial yearly increase of 0.5 %. None of the sampling schemes was able to assess statistical significant interannual trends with probabilities above 60 %. Further, the significant trends overestimated the increase by a factor 2 to 8. Here, present modus operandi is thus inadequate for basic trend detection, but may be acceptable for the more marine, lower turbid areas where higher probabilities were obtained in this study., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

43. Combination of high-dose chemotherapy and monoclonal antibody in breast-cancer patients: a pilot trial to monitor treatment effects on disseminated tumor cells.

Author

Hempel P, Müller P, Oruzio D, Behr W, Brockmeyer C, Wochner M, Ehnle S, Riethmüller R, and Schlimok G

Subjects

Adult, Antineoplastic Combined Chemotherapy Protocols administration & dosage, Antineoplastic Combined Chemotherapy Protocols pharmacology, Bone Marrow pathology, Breast Neoplasms immunology, Breast Neoplasms radiotherapy, Cisplatin administration & dosage, Cisplatin pharmacology, Cisplatin therapeutic use, Creatine Kinase metabolism, Epirubicin administration & dosage, Epirubicin pharmacology, Epirubicin therapeutic use, Etoposide administration & dosage, Etoposide pharmacology, Etoposide therapeutic use, Female, Follow-Up Studies, Humans, Ifosfamide administration & dosage, Ifosfamide pharmacology, Ifosfamide therapeutic use, Immunotherapy, Middle Aged, Neoplasm Staging, Pilot Projects, Radiotherapy, Adjuvant, Survival Rate, Antibodies, Monoclonal therapeutic use, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Breast Neoplasms drug therapy, Breast Neoplasms pathology

Abstract

Background: Tumor relapse occurring in high-risk breast cancer patients after high-dose chemotherapy (HDC) and autologous stem-cell transplantation may arise from cells resistant to chemotherapy, as well as from tumor cells reinfused with autologous stem cell grafts. This pilot study was designed to investigate whether ex vivo immunomagnetic purging of PBSC and subsequent immunotherapy with MAb 17-1A is feasible and can reduce the number of disseminated tumor cells in BM., Methods: Twelve high-risk breast-cancer patients, seven in Stage II/III and five in Stage IV (UICC breast cancer classification) underwent surgery of the primary tumor and received two cycles of induction chemotherapy, followed by HDC. After each cycle of induction chemotherapy PBSC were collected and incubated with Ab-coated immunomagnetic beads, to remove contaminating tumor cells. Prepared stem-cell grafts were transplanted 24 h after completion of HDC. After recovering from HDC all 12 patients received a total dose of 900 mg MAb 17-1A within 4 months. The effect of in vivo purging with MAb 17-1A after HDC was controlled by examining bone aspirates of the patients with an immunocytochemical assay, allowing the detection of one cytokeratin-positive tumor cell in 10(6) total nucleated cells (TNC)., Results: Tumor cells were found in 5/12 BM aspirates prior to chemotherapy and even after HDC. Further monitoring of BM aspirates for cancer cells during Ab therapy showed a consistent reduction of tumor cells in four out of these five patients. After a median clinical follow-up of 41 (32-48) months all four patients are alive. These results are different from those of a historical control group of six patients with breast cancer treated with the same chemotherapy schedule, but without 17/1A consolidation. In comparison with the patients from the study group, all patients of this control group revealed a significantly increased number of tumor cells in BM (p < 0.01) after HDC during follow-up of 5 (3-7) months. These preliminary results indicate that induction chemotherapy, followed by HDC, may reduce disseminated tumor cells in BM., Discussion: Immunotherapy with MAb 17-1A after HDC may further eliminate residual disease without severe toxicity.

Published

2000