First-authored, refereed papers of Petr Heinzel

A list of first-authored, refereed publications of Petr Heinzel, derived from the SAO/NASA Astrophysics Data System (ADS). The number in brackets after each title indicates the number of citations that the paper has received.

Orcid ID: 0000-0002-5778-2600

List of publications ordered by citations
Number of papers: 44
No. of citations: 1408

2026

  1. New Approach to Superflare Energy Determination [0]
    Heinzel, P., Falewicz, R., Bicz, K. & Preś, P., ApJ, 999, L18

2025

  1. Radiative Transfer in Solar Prominences: An Overview and Current Trends [0]
    Heinzel, Petr & Gunár, Stanislav, Solar Physics, 300, 167
  2. Radiative Processes in Cool Coronal Condensations [2]
    Heinzel, Petr, Beck, Dominik, Gunár, Stanislav & Anzer, Ulrich, Solar Physics, 300, 166

2024

  1. Partial ionization of plasma in solar prominences [11]
    Heinzel, Petr, Gunár, Stanislav & Jejčič, Sonja, Philosophical Transactions of the Royal Society of London Series A, 382, 20230221

2023

  1. First Metis Detection of the Helium D3 Line Polarization in a Large Eruptive Prominence [6]
    Heinzel, Petr, Jejčič, Sonja, Štěpán, Jiří, Susino, Roberto, Andretta, Vincenzo, Russano, Giuliana, Fineschi, Silvano, Romoli, Marco, Bemporad, Alessandro, Berlicki, Arkadiusz, Burtovoi, Aleksandr, Da Deppo, Vania, De Leo, Yara, Grimani, Catia, Jerse, Giovanna, Landini, Federico, Naletto, Giampiero, Nicolini, Gianalfredo, Pancrazzi, Maurizio, del Pino Alemán, Tanausú, Sasso, Clementina, Spadaro, Daniele, Stangalini, Marco, Telloni, Daniele, Teriaca, Luca, Uslenghi, Michela & Vicente Arévalo, Andrés, ApJ, 957, L10

2022

  1. ALMA as a Prominence Thermometer: First Observations [8]
    Heinzel, Petr, Berlicki, Arkadiusz, Bárta, Miroslav, Rudawy, Paweł, Gunár, Stanislav, Labrosse, Nicolas & Radziszewski, Krzysztof, ApJ, 927, L29

2020

  1. On the Possibility of Detecting Helium D3 Line Polarization with Metis [9]
    Heinzel, Petr, Štěpán, Jiři, Bemporad, Alessandro, Fineschi, Silvano, Jejčič, Sonja, Labrosse, Nicolas & Susino, Roberto, ApJ, 900, 8
  2. Signatures of Helium Continuum in Cool Flare Loops Observed by SDO/AIA [11]
    Heinzel, Petr, Schwartz, Pavol, Lörinčík, Juraj, Koza, Július, Jejčič, Sonja & Kuridze, David, ApJ, 896, L35

2018

  1. Can Flare Loops Contribute to the White-light Emission of Stellar Superflares? [42]
    Heinzel, P. & Shibata, K., ApJ, 859, 143

2017

  1. On the Nature of Off-limb Flare Continuum Sources Detected by SDO/HMI [35]
    Heinzel, P., Kleint, L., Kašparová, J. & Krucker, S., ApJ, 847, 48

2016

  1. Hot prominence detected in the core of a coronal mass ejection: Analysis of SOHO/UVCS Lα and SOHO/LASCO visible-light observations [30]
    Heinzel, P., Susino, R., Jejčič, S., Bemporad, A. & Anzer, U., A&A, 589, A128

2015

  1. On the Visibility of Prominence Fine Structures at Radio Millimeter Wavelengths [13]
    Heinzel, P., Berlicki, A., Bárta, M., Karlický, M. & Rudawy, P., Solar Physics, 290, 1981
  2. Understanding the Mg II and Hα Spectra in a Highly Dynamical Solar Prominence [37]
    Heinzel, P., Schmieder, B., Mein, N. & Gunár, S., ApJ, 800, L13
  3. Fast approximate radiative transfer method for visualizing the fine structure of prominences in the hydrogen Hα line [42]
    Heinzel, P., Gunár, S. & Anzer, U., A&A, 579, A16

2014

  1. Hydrogen Balmer Continuum in Solar Flares Detected by the Interface Region Imaging Spectrograph (IRIS) [75]
    Heinzel, P. & Kleint, L., ApJ, 794, L23
  2. On the formation of Mg ii h and k lines in solar prominences [66]
    Heinzel, P., Vial, J.-C. & Anzer, U., A&A, 564, A132
  3. Synthetic hydrogen spectra of prominence oscillations [17]
    Heinzel, P., Zapiór, M., Oliver, R. & Ballester, J. L., A&A, 562, A103

2012

  1. Optical-to-Radio Continua in Solar Flares [29]
    Heinzel, P. & Avrett, E. H., Solar Physics, 277, 31
  2. Radiative equilibrium in solar prominences reconsidered [23]
    Heinzel, P. & Anzer, U., A&A, 539, A49

2008

  1. Hinode, TRACE, SOHO, and Ground-based Observations of a Quiescent Prominence [114]
    Heinzel, P., Schmieder, B., Fárník, F., Schwartz, P., Labrosse, N., Kotrč, P., Anzer, U., Molodij, G., Berlicki, A., DeLuca, E. E., Golub, L., Watanabe, T. & Berger, T., ApJ, 686, 1383

2006

  1. On the Fine Structure of Solar Filaments [43]
    Heinzel, P. & Anzer, U., ApJ, 643, L65

2005

  1. Prominence fine structures in a magnetic equilibrium. II. A grid of two-dimensional models [51]
    Heinzel, P., Anzer, U. & Gunár, S., A&A, 442, 331

2003

  1. Transport of Energy from the Corona to the Chromosphere During Flares [4]
    Heinzel, P. & Karlický, M., Energy Conversion and Particle Acceleration in the Solar Corona (Editors: Klein, L.), p.161
  2. Understanding solar flares from optical observations: How do particle beams affect the lower atmosphere? [10]
    Heinzel, P., Advances in Space Research, 32, 2393

2001

  1. Why Are Solar Filaments More Extended in Extreme-Ultraviolet Lines than in Hα? [68]
    Heinzel, P., Schmieder, B. & Tziotziou, K., ApJ, 561, L223
  2. Prominence fine structures in a magnetic equilibrium: Two-dimensional models with multilevel radiative transfer [111]
    Heinzel, P. & Anzer, U., A&A, 375, 1082
  3. SOHO/SUMER observations and analysis of the hydrogen Lyman spectrum in solar prominences [40]
    Heinzel, P., Schmieder, B., Vial, J.-C. & Kotrč, P., A&A, 370, 281

2000

  1. Solar Prominences Observed by Soho (SUMER, CDS, EIT) and Ground-Based Observatories (GBO) [2]
    Heinzel, P., Schmieder, B., Vial, J. C. & Rudawy, P., Advances in Space Research, 25, 1777

1999

  1. Magnetic Dips in Prominences [18]
    Heinzel, P. & Anzer, U., Solar Physics, 184, 103
  2. Cloud model with variable source function for solar Hα structures. II. Dynamical models [29]
    Heinzel, P., Mein, N. & Mein, P., A&A, 346, 322

1996

  1. A Complex Diagnostic of Solar Prominences [14]
    Heinzel, P., Bommier, V. & Vial, J. C., Solar Physics, 164, 211

1995

  1. On the nature of bright rims of filaments [17]
    Heinzel, Petr, Kotrč, Pavel, Mouradian, Zadig & Buyukliev, Georgi T., Solar Physics, 160, 19

1994

  1. Coordinated optical and YOHKOH observations of 26 June 1992 flare loops [1]
    Heinzel, P., Kotrč, P., Schmieder, B., Hiei, E. & Anwar, B., Space Science Reviews, 70, 181
  2. Theoretical correlations between prominence plasma parameters and the emitted radiation. [75]
    Heinzel, P., Gouttebroze, P. & Vial, J.-C., A&A, 292, 656
  3. On the Occurrence of Blue Asymmetry in Chromospheric Flare Spectra [68]
    Heinzel, Petr, Karlicky, Marian, Kotrc, Pavel & Svestka, Zdenek, Solar Physics, 152, 393

1992

  1. Structure and Dynamics of Cool Flare Loops [40]
    Heinzel, P., Schmieder, B. & Mein, P., Solar Physics, 139, 81

1991

  1. A Chromospheric Response to Pulse Beam Heating [34]
    Heinzel, Petr, Solar Physics, 135, 65

1990

  1. Formation of hydrogen lines under the influence of turbulent electric fields in solar flares. [1]
    Heinzel, Petr, JQSRT, 44, 185

1987

  1. Hα diagnostics of (post)-flare loops based on narrow-band filtergram observations [35]
    Heinzel, P. & Karlicky, M., Solar Physics, 110, 343
  2. Hydrogen Emission from Moving Solar Prominences [59]
    Heinzel, P. & Rompolt, B., Solar Physics, 110, 171
  3. Formation of the hydrogen spectrum in quiescent prominences - One-dimensional models with standard partial redistribution [71]
    Heinzel, P., Gouttebroze, P. & Vial, J.-C., A&A, 183, 351

1983

  1. Resonance Scattering of Radiation in Solar Prominences. I. Partial Redistribution in Optically Thin Subordinate Lines [13]
    Heinzel, P., Bulletin of the Astronomical Institutes of Czechoslovakia, 34, 1
  2. OSO-8 observations of a quiescent prominence - A comparison of Lyman-alpha with theoretical intensities [8]
    Heinzel, P. & Vial, J.-C., A&A, 121, 155

1978

  1. Derivatives of the Voigt Functions [26]
    Heinzel, P., Bulletin of the Astronomical Institutes of Czechoslovakia, 29, 159

Created on Wed Apr 22 04:33:55 2026.