Your search keyword '"Kallenbach, R."' showing total 15 results

1. Suprathermal Helium Associated with Corotating Interaction Regions: A Case Study.

Author

Yu, J., Berger, L., Wimmer-Schweingruber, R. F., Hilchenbach, M., Kallenbach, R., Klecker, B., and Guo, J.

Subjects

HELIUM, COROTATING interaction regions, PARTICLE acceleration, SOLAR magnetic fields, SPACE vehicles, SOLAR wind

Abstract

Enhancements of suprathermal particles observed at 1AU often can be related to Corotating Interaction Regions (CIRs). The compression regions associated with CIRs and their driven shocks which typically form at a few AU distance to the Sun can efficiently accelerate particles. If accelerated at the trailing edge of a CIR these particles can travel sunward along the ambient magnetic field and thus enhanced fluxes can be observed even if the acceleration region has passed over the spacecraft. We have analysed a CIR that has been observed at L1 by ACE/SWICS and SOHO/CELIAS/STOF on days 207 and 208 in 2003. The combination of SWICS and STOF data allowed us to study suprathermal Helium ranging from its onset at solar wind bulk energies up to 330 keV/nuc. Here we present our results for the temporal evolution of the flux, energy spectra and the He+/He++ ratio. In particular we present observational evidence for a turnover of the energy spectra at lower energies after the CIR passage which has been theoretically predicted but never been observed so far. [ABSTRACT FROM AUTHOR]

Published

2016

2. Potential sources for energetic neutrals from the heliosphere and beyond

Author

Hilchenbach, M., primary, Kallenbach, R., additional, Hsieh, K.C., additional, and Czechowski, A., additional

Published

2012

3. On the Source of the Anomalous Cosmic Rays

Author

Kallenbach, R., primary, Bamert, K., additional, Hilchenbach, M., additional, Ao, Xianzhi, additional, and Burrows, Gary Zank Ross, additional

Published

2009

4. Determination of the eddy turn-over time in the solar wind

Author

Bamert, K., primary, Kallenbach, R., additional, Hilchenbach, M., additional, and Smith, C. W., additional

Published

2007

5. Observations of energetic neutral atoms and their implications on modeling the heliosheath

Author

Hilchenbach, M., primary, Czechowski, A., additional, Hsieh, K. C., additional, and Kallenbach, R., additional

Published

2006

6. Is the solar wind termination shock a cosmic-ray mediated shock?

Author

Kallenbach, R., primary and Hilchenbach, M., additional

Published

2006

7. Observations of Turbulence near Interplanetary Travelling Shocks

Author

Kallenbach, R., primary

Published

2005

8. On the Origin of Energetic Neutral Atoms Detected by the SOHO/CELIAS/HSTOF Sensor

Author

Kallenbach, R., primary

Published

2004

9. Energetic Neutral Atoms from the Heliotail Direction and their Potential Source Regions.

Author

Hilchenbach, M., Kallenbach, R., Hsieh, K. C., and Czechowski, A.

Subjects

*ATOMS, *COROTATING interaction regions, *SOLAR energetic particles, *HELIUM, *ACCELERATION (Mechanics), *ASTRONOMICAL observations

Abstract

The particle instrument CELIAS/HSTOF onboard SOHO is observing the energetic neutral atom (ENA) flux in the ecliptic plane since 1996. During quiet time periods, the ENA flux is well separated from the energetic ion flux, originating in the solar corona and/ or heliosphere. The instrument is capable to measure the energetic neutral hydrogen (ENH) and helium (ENHe) fluxes along the line-of-sight of the instrument field-of-view. We will discuss the neutral energetic flux measurements of hydrogen and helium in the 28 to 88 keV/n energy/mass range of CELIAS/HSTOF, focusing on the frequently increased fluxes from the tail direction of the heliosphere. Potential source regions might be co-rotating interaction regions (CIRs) and the helium cone in the inner heliosphere, solar energetic particle events, accelerated pick-up ions in the outer heliosphere and energetic neutral particles originating from the heliosheath region and beyond. [ABSTRACT FROM AUTHOR]

Published

2010

10. Charge-to-mass Fractionation of Suprathermal Ions Associated with Interplanetary CMEs

Author

Kallenbach, R., primary

Published

2003

11. Velocity Dispersion Of Energetic Particles Observed By SOHO/CELIAS/STOF.

Author

Hilchenbach, M., Sierks, H., Klecker, B., Bamert, K., and Kallenbach, R.

Subjects

PARTICLES (Nuclear physics), ENERGY dissipation

Abstract

Since the launch of the Solar and Heliospheric Observatory (SOHO) on Dec. 2, 1995, the Suprathermal Time-Of-Flight (STOF) energetic particle sensor of the Charge, Element and Isotope Analysis System (CELIAS) has observed gradual and impulsive solar particle events from solar activity cycle minimum to maximum. The instrument CELIAS/STOF has the capability of detecting energetic ions and determine the mass, energy and charge of each particle. We report on the measurements of the detected energetic particle events from 1996 to 2001, i.e. the velocity dispersion of energetic He ions in the energy/charge range between 30 and 800 keV/nuc. For energetic particle events we analyse the velocity dispersion of the suprathermal He and O ions (78 and 43 events, resp.) and estimate the onset time of the solar event and set limits on the propagation length along the connecting magnetic field line. © 2003 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published

2003

12. Charge-to-mass fractionation during injection and acceleration of suprathermal particles associated with the Bastille Day event: SOHO/CELIAS/HSTOF data.

Author

Bamert, K., Wimmer-Schweingruber, R.F., Kallenbach, R., Hilchenbach, M., and Klecker, B.

Subjects

IONS, SHOCK waves, INTERPLANETARY medium

Abstract

We present SOHO/CELIAS/HSTOF data on suprathermal H, He, CNO, and Fe ions in the energy range 0.035–2 MeV/amu associated with the Bastille Day coronal mass ejection event, July 14–16, 2000. We observe a complicated evolution of the spectra in the plasma upstream from the strong interplanetary shock on July 15, in the downstream turbulent compression region, and in the magnetic cloud following the compression region. The spectra of suprathermal H, CNO, and Fe ions from the solar wind source fit a scheme of ordering by their charge-to-mass (Q/A) ratio. This scheme suggests that the ions are stochastically accelerated in the turbulence region downstream from the shock and then injected into first-order Fermi acceleration. The suprathermal He flux consists of solar wind 4He2+ ions matching the Q/A-ordering scheme, and an additional component. © 2003 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published

2003

13. Isotopic composition measured in-situ in different solar wind regimes by CELIAS/MTOF on board SOHO.

Author

Kallenbach, R.

Subjects

*SOLAR wind, *ISOTOPES, *COSMIC abundances

Abstract

The Sun is the largest reservoir representing the matter of the early solar nebula. Its isotopic composition for the elements N, Ne, Mg, Si, At, and Fe has been determined by measuring solar wind abundances with the CELIAS experiment on board SOHO and other spacecraft instruments. These measurements and theoretical considerations indicate that the solar wind, in particular the coronal-hole type solar wind, is much less isotopically fractionated than solar energetic particles. The data give evidence that the isotopic abundance ratios typically vary by only ∼1 - 2% per amu in different solar wind regimes such as coronal-hole type and streamer-belt associated solar wind, ejecta of coronal mass ejections (CMEs), or so-called 'blobs'. [ABSTRACT FROM AUTHOR]

Published

2001

14. Observation of suprathermal helium at 1 AU: Charge states in CIRs

Author

Hilchenbach, M., primary, Grünwaldt, H., additional, Kallenbach, R., additional, Klecker, B., additional, Kucharek, H., additional, Ipavich, F. M., additional, and Galvin, A. B., additional

Published

1999

15. High resolution spectroscopy of the hydrogen 1S-2S transition in an atomic beam.

Author

Zimmermann, C., Kallenbach, R., Vassen, W., Schmidt-Kaler, F., Weitz, M., Leibfried, D., and Hänsch, T. W.

Published

1991