*) ACE web site;
http:// www.srl.caltech.edu/ACE/ASC/DATA/level3/mag/ACECpec.cgi?LATEST=1
*) Alex A. (2018) Script Lecture PHY 432, Physics with muons: from atomic physics to Solid state physics (psi ch.) (Access is available from website)
*) AMS collaboration; Alearaz et al. (2000) Protons in near earth orbits. Physics Letters B 472:215-226 https://doi.org/10.1016/S0370-2693(99)01427-6
*) Burman R.L. and Smith E.S (1989) LA-11502-MS, Parametrization of Pion production and Reaction cross-section at LAMPF energies (Access is available from website.)
*) Casolino M et al. (2007) Two Years of Flight of the Pamela Experiment: Results and Perspectives. J. Phys. Soc. Jpn. Suppl. A 78:35-40,
Casolino et al. (2007) Observation of primary, trapped and quasi trapped particles with PAMELA experiment. Proceed. 30th ICRC (Merida) 1:709-712,
Also in the rapporteur talk by E.O. Flückiger (2007) Ground Level Events and Terrestrial Effects. Proceed. 30th ICRC (Merida) 6: 239-253
*) Dorman LI, Valdés-Galicia JF, Dorman VI (1999) Numerical simulation and analytical description of solar neutron transport in the Earth's atmosphere, Journal Geophysical Research 104 (A10): 22417-22426. Doi.org/10.1029/1999jA900182
*) Dorman LI, Dorman IV, and Valdés-Galicia JF (1997) Simulation of solar neutron scattering and attenuation in the Earth’s atmosphere for different initial zenith angles. Proceed. 25th ICRC (Durban) 1:25-28
*) Dorman L (2010) Solar Neutrons and Related Phenomena (Springer). pp 374-377
doi: 10.1007/978-90-481-3737-4
*) Dröge W, Ruffolo D, and Klecker B (1996) Observation of electrons from the decay of solar flare neutrons. ApJ 464: L87-L90
*) Evenson P, Meyer P, and Roger Pyle K (1983) Protons from the decay of solar flare neutrons. ApJ 274:875-882
*) Evenson P, Kroger R, Meyer P, and Reames D (1990) Solar Neutron Decay Proton Observations in Cycle 21. ApJ Suppl. 73:273-277
*) INTEGRAL web site: https://www.isdc.unige.ch/integral/science/grb#ACS
*) Kamiya K, Koga K. Matsumoto H., Masuda S, Muraki Y., Tajima H, and Shibata S (2019) Solar Neutrons observed from September 4 to 10 2017 by SEDA-FIB, PoS (ICRC2019) 1150.
*) Koi T. et al.(1993) Prediction of electrons as decay products of solar neutrons. Proceeding of 23rd ICRC (Calgary) 3:151-154
*) Muraki Y., Matsubara Y., Masuda S., Sakakibara S., Sako T., Watanabe K., Bütikofer R., Flückiger E.O., Chilingarian A., Hovsepyan G., Kakimoto F., Terasawa T., Tsunesada Y., Tokuno H., Velarde A., Evenson P., Poirier J., and Sakai T. (2008) Detection of high-energy solar neutrons and protons by ground level detectors on April 15, 2001. Astroparticle Physics 29:229-242 Doi:10.1016/j.astropartphys.2007.12.007
*) Muraki Y. Valdés-Galicia JF, González LX, Kamiya K, Katayose Y, Koga K, Matsumoto H, Masuda S, Matsubara Y, Nagai Y, Ohnishi M, Ozawa S, Sako T, Shibata, S, Takita M, Tanaka Y, Tsuchiya H, Watanabe K, and Zhang JL (2020) Possible detection of solar gamma-rays by ground-level detectors in solar flares on 2011 March 7. Pub. Astron. Soc. Japan 72:1-17 Doi: 10.1093/pasj/psz141
*) PAMELA collaboration; N. De Simone et al. (2009) Comparison of models and measurements of protons of trapped and secondary origin with PAMELA experiment. Proceed. 31st ICRC (Lodz) icrc0795
Adriani et al. (2016) PAMELA's measurements of geomagnetic cutoff variations during the 14 December 2006 storm.
Space Weather 14 210-220 doi:10.1002/2016SW001364
*) Ruffolo D (1991) Interplanetary transport of decay protons from solar flare neutrons. Astrophysical Journal 388:688-698 Doi: 10.1086/170756
*) Sakai T. and Muraki Y. (1993) Solar neutron Decay Proton. Proceed of 23rd ICRC (Calgary) 3:147S. Website: articles.ads.abc.harvard.edu/pdf/1993ICRC….3..1475
*) Sakai T, Kato M, and Muraki Y (1997) Propagation of Solar neutron decay protons near the Earth. Geomag. Geoelectr. 49:1105-1113
*) Shea MA, Smart DF, Wilson MD, and Flückiger EO (1991) Possible ground-level measurement of solar neutron decay protons during the 19 October 1989 solar cosmic ray event. Geophys. Res. Lett. 18 : 829-832. Doi.org/10.1029/90GL02668
*) Shea MA and Smart DF (2000) Cosmic Ray Implications for Human Health. Space Science Review 93:187-205
*) Shibata S (1994) Propagation of solar neutrons through the atmosphere of the Earth. Journal of Geophysical Research 99: 6651-6665
*) SOHO CME catalog website: https://cdawweb.gsfc.nasa.gov
*)SOHO-COSTEP-EPHIN : http://www2.physik.unikiel.de/SOHO/phpeph/EPHIN.htm
*) Solar Geophysical Data web site: https://www.ngdc.noaa.gov/stp/space-weather/online-publications/stp_sgd/1982/sgd8212c.pdf
*) Tsuchiya H.et al. (1999) Detection efficiency of new solar neutron detector. Proceed. 26th ICRC (Salt Lake City) 7: 363
*) Tsuchiya H.et al. (2001) Arrival of solar neutrons from large zenith angle. Proceed. 27th ICRC (Hamburg) 8: 3056-3059
*) Tsuneta S. and Naito T (1998) Fermi acceleration at the fast shock in a solar flare and the inclusive loop-top hard X-ray source. APJL 67:495
*) Tokumaru, M (2013) Three-dimensional exploration of the solar wind using observations of interplanetary scintillation, Proceedings of the Japan Academy Ser. B, 89(2):67-79 doi:10.2183/pjab.89.67.
*) Valdés-Galicia JF, Muraki Y., Sako T, Musalem O, Huertado A, Gonzalez X, Matsubara Y, Watanabe K, Hirano N, Tateiwa N, Shibata S, and Sakai T (2004) An improved solar neutron telescope installed at a very high altitude in México. NIMA 535: 656-664 doi.org/10.1016/j.nima.2004.06.148
*) Valdés-Galicia JF, Muraki Y, Watanabe K, Matsubara Y, Sako T, Gonzalez X, Musalem O, Huertado A (2009) Solar neutron events as a tool to study particle acceleration at the Sun, Advances in Space Research, 43: 565-572.
https://doi.org/10.1016/j.asr2008.09.023
*) Watanabe K. (2005) Proceeding of the Cosmic-ray Research Section of Nagoya University 46(2), pp1-249. Solar neutron Events associated with Large Solar Flares in Solar Cycle 23 (PhD thesis in English)
*) WIND web site: https://asd.gsfc.nasa.gov