Abstract
Muon observations are complementary to neutron monitor observations but there are some important differences in the two techniques. Unlike neutron monitors, muon telescope systems use coincidence techniques to obtain directional information about the arriving particle. Neutron monitor observations require simple corrections for pressure variations to compensate for the varying mass of atmospheric absorber over a site. In contrast, muon observations require additional corrections for the positive and negative temperature effects. Muon observations commenced many years before neutron monitors were constructed. Thus, muon data over a larger number of solar cycles is available to study solar modulation on anisotropies and other cosmic ray variations.
The solar diurnal and semi-diurnal variations have been studied for many years. Using the techniques of Bieber and Chen it has been possible to derive the radial gradient, parallel mean-free path and symmetric latitude gradient of cosmic rays for rigidities <200 GV. The radial gradient varies with the 11-year solar activity cycle whereas the parallel mean-free path appears to vary with the 22-year solar magnetic cycle. The symmetric latitudinal gradient reverses at each solar polarity reversal. These results are in general agreement with predictions from modulation models. In undertaking these analyses the ratio of the parallel to perpendicular mean-free path must be assumed. There is strong contention in the literature about the correct value to employ but the results are sufficiently robust for this to be, at most, a minor problem. An asymmetric latitude gradient of highly variable nature has been found. These observations do not support current modulation models.
Our view of the sidereal variation has undergone a revolution in recent times. Nagashima, Fujimoto and Jacklyn proposed a narrow Tail-In source anisotropy and separate Loss-Cone anisotropy as being responsible for the observed variations. A new analysis technique, more amenable to such structures, was developed by Japanese and Australian researchers. They confirmed the existence of the two anisotropies. However, they found that the Tail-In anisotropy is asymmetric and that both anisotropies had different positions from the prediction.
Most 27-day modulations are observed at neutron monitor rigidities but not so readily at higher rigidities. An exception to this is the Isotropic Intensity Wave modulation observed in the early 1980s and again in 1991. This modulation is very strongly related to the heliospheric sector structure and implies a significantly different cosmic ray density on either side of the neutral sheet.
The interpretation of most cosmic ray modulation phenomena requires good latitude coverage in both hemispheres. The closure of many muon observatories is a matter of concern. In the northern hemisphere a few new instruments are being constructed and spatial coverage is barely adequate. In the southern hemisphere the situation is far worse with the possibility that within a decade only the Mawson observatory in Antarctica will still be in operation.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Ahluwalia, H. S.: 1988a, 'The Regimes of the East-West and the Radial Anisotropies of Cosmic Rays in the Heliosphere', Planetary Space Sci. 36, 1,451–1,459.
Ahluwalia, H. S.: 1988b, 'Is there a Twenty YearWave in the Diurnal Anisotropy of Cosmic Rays?', Geophys. Res. Lett. 15, 287–290.
Ahluwalia, H. S.: 1991, 'The Limiting Primary Rigidity for the Cosmic Ray Diurnal Anisotropy and the IMF', Proc. 22nd Int. Cosmic Ray Conf. 2, 125–128.
Ahluwalia, H. S.: 1992, 'A Correlation Between IMF and Limiting Primary Rigidity for the Cosmic Ray Diurnal Anisotropy', Geophys. Res. Lett. 19, 633–636.
Ahluwalia, H. S.: 1993, 'Hale Cycle Effects in Cosmic Ray East-West Anisotropy and Interplanetary Field', J. Geophys. Res. 98, 11 513–11 519.
Ahluwalia, H. S.: 1994, 'Cosmic Ray Transverse Gradient for a Hale Cycle', J. Geophys. Res. 99, 23 515–23 521.
Ahluwalia, H. S. and Dorman, L. I.: 1997, 'Transverse Cosmic Ray Gradients in the Heliosphere and the Solar Diurnal Anisotropy', J. Geophys. Res. 102, 17 433–17 443.
Ahluwalia, H. S. and Fikani, M. M.: 1996a, 'Cosmic Ray Solar Semidiurnal Anisotropy 1. Treatment of Experimental Data', J. Geophys. Res. 101, 11 075–11 086.
Ahluwalia, H. S. and Fikani, M. M.: 1996b, 'Cosmic Ray Solar Semidiurnal Anisotropy 2. Heliospheric Relationship of Anisotropy Parameters', J. Geophys. Res. 101, 11 087–11 093.
Ahluwalia, H. S. and Fikani, M. M.: 1997, 'Observed Solar Diurnal Variation of Cosmic Rays 1965–1994', Proc. 25th Int. Cosmic Ray Conf. 2, 125–128.
Ahluwalia, H. S. and Sabbah, I. S.: 1993, 'Cosmic Ray Diurnal Anisotropy for a Solar Magnetic Cycle', Planetary Space Sci. 41, 113–125.
Alania, M. V., Aslamazashvili, R. G., Djapiashvili, T. V., and Tkemaladze, V. S.: 1983, 'The Effect of Particle Drift in Cosmic Ray Anisotropy', Proc. 18th Int. Cosmic Ray Conf. 10, 91–94.
Bieber, J. W.: 1988, 'North-South Asymmetry of the Interplanetary Field Spiral', J. Geophys. Res. 93, 5903–5907.
Bieber, J. W. and Chen, J.: 1991a, 'Cosmic Ray Diurnal Anisotropy, 1936–1988: Implications for Drift and Modulation Theories', Astrophys. J. 372, 301–313.
Bieber, J. W. and Chen, J.: 1991b, 'Solar Magnetic Cycle Variation of Cosmic Ray Gradients and Scattering Mean Free Path', Proc. 22nd Int. Cosmic Ray Conf. 3, 525–528.
Bieber, J. W. and Pomerantz, M. A.: 1986, 'Solar Cycle Variation of Cosmic Ray North-South Anisotropy and Radial Gradient', Astrophys. J. 303, 843–848.
Chen, J. and Bieber, J. W.: 1993, 'Cosmic-Ray Anisotropies and Gradients in Three Dimensions', Astrophys. J. 405, 375–389.
Chen, J., Bieber, J. W., and Pomerantz, M. A.: 1991, 'Cosmic Ray Uni-Directional Latitude Gradient: Evidence for North-South Asymmetric Solar Modulation', J. Geophys. Res. 96, 11 569–11 585.
Dorman, L. I.: 1970, 'Barometer Effect of Cosmic Rays and Changes of the Energy Spectrum and Cut-Off Rigidities', Proc. 11th Int. Cosmic Ray Conf. 2, 715–719.
Dorman, L. I.: 1972, Meteorological Effects of Cosmic Rays, Nauka Moscow, p. 212 (in Russian).
Dorman, L. I. and Dorman, I.V.: 1995, 'Cosmic-ray Atmospheric Electric Field Effects', Can. J. Phys. 73, 440–443.
Dorman, L. I. and Feinberg, E. L.: 1958, 'On the Nature of the Cosmic Ray Variations', Proc. 4th Int. Cosmic Ray Conf. 4, 393–432.
Duggal, S. P. and Pomerantz, M. A.: 1975, 'Long Term Changes in the Solar Diurnal Anisotropy', Proc. 14th Int. Cosmic Ray Conf. 4, 1209–1213.
Duggal, S. P., Pomerantz, M. A., and Forbush, S. E.: 1967, 'Long-term Variation in the Magnitude of the Diurnal Anisotropy of Cosmic Rays', Nature 214, 143–155.
Duperier, A.: 1944, 'A New Cosmic-Ray Recorder and the Air Absorption and Decay of Particles', Terrest. Magn. Atmospheric Electricity 49, 1–7.
Duperier, A.: 1949, 'The Meson Intensity at the Surface of the Earth and the Temperature at the Production Level', Proc. Phys. Soc. 62, 684–696.
Forbush, S. E.: 1967, 'A Variation with a Period of Two Solar Cycles, in the Cosmic-Ray Diurnal Anisotropy', J. Geophys. Res. 72, 4937–4939.
Forman, M. A. and Gleeson, L. J.: 1975, 'Cosmic Ray Streaming and Anisotropies', Astrophys. Space Sci. 32, 77–94.
Fujii, Z.: 1998, 'High Energy Cosmic Ray Isotropic Intensity Waves', Proc. 2nd Mini-International Conference: Beyond Solar Horizon, STE Laboratory, Nagoya University, Japan, pp. 85–86.
Hall, D. L.: 1995, 'Modulation of High Energy Cosmic Rays in the Heliosphere', Ph.D. Thesis, University of Tasmania.
Hall, D.L., Humble, J.E., and Duldig, M.L.:1993,'Radial and Latitudinal Density Gradients in Cosmic Rays Derived from the Solar Diurnal Variation', Proc. 23rd Int. Cosmic Ray Conf. 3, 679–682.
Hall, D. L., Humble, J. E. and Duldig, M. L.: 1994, 'Modulation of High Energy Cosmic Rays in the Heliosphere', J. Geophys. Res. 99, 21 443–21 455.
Hall, D. L., Duldig, M. L., and Humble, J. E.: 1995, 'The ParallelMean-Free Path of Galactic Cosmic Rays at 1 AU', Proc. 24th Int. Cosmic Ray Conf. 4, 607–610.
Hall, D. L., Duldig, M. L., and Humble, J. E.: 1996, 'Analysis of Sidereal and Solar Anisotropies in Cosmic Rays', Space Sci. Rev. 78, 401–442.
Hall, D. L., Duldig, M. L., and Humble, J. E.: 1997, 'Cosmic Ray Modulation Parameters Derived from the Solar Diurnal Variation', Astrophys. J. 482, 1038–1049.
Hall, D. L., Munakata, K., Yasue, S., Mori, S., Kato, C., Koyama, M., Akahane, S., Fujii, Z., Fujimoto, K., Humble, J. E., Fenton, A. G., Fenton, K. B., and Duldig, M. L.: 1998a, 'Preliminary Analysis of Two-Hemisphere Observations of Sidereal Anisotropies of Galactic Cosmic Rays', J. Geophys. Res. 103, 367–372.
Hall, D. L., Munakata, K., Yasue, S., Mori, S., Kato, C., Koyama, M., Akahane, S., Fujii, Z., Fujimoto, K., Humble, J. E., Fenton, A. G., Fenton, K. B., and Duldig, M. L.: 1998b, 'Gaussian Analysis of Two Hemisphere Observations of Sidereal Daily Variations of Galactic Cosmic Rays', Proc. 25th Int. Cosmic Ray Conf. 2, 137–140.
Hall, D. L., Munakata, K., Yasue, S., Mori, S., Kato, C., Koyama, M., Akahane, S., Fujii, Z., Fujimoto, K., Humble, J. E., Fenton, A. G., Fenton, K. B., and Duldig, M. L.: 1999, 'Gaussian Analysis of Two Hemisphere Observations of Galactic Cosmic Rays Sidereal Anisotropies', J. Geophys. Res. 104, 6737–6749.
Ip, W. H., Fillius, W., Mogro-Campero, A., Gleeson, L.J., and Axford, W. I.: 1978,'Quiet Time Interplanetary Cosmic Ray Anisotropies Observed from Pioneer 10&11', J.Geophys.Res. 83, 1633–1640.
Jacklyn, R. M.: 1986, 'Galactic Cosmic Ray Anisotropies in the Energy Range (1011 –1014eV)', Proc. Astron. Soc. Australia 6, 425–436.
Jacklyn, R. M. and Duldig, M. L.: 1987, 'The Determination of the Accidental Rate in the Output of a 2-Tray Gas Counter Telescope', Proc. 20th Int. Cosmic Ray Conf. 4, 380–383.
Jacklyn, R. M., Duldig, M. L., and Pomerantz, M. A.: 1984a, 'Cosmic Ray Intensity Waves and the North-South Anisotropy', Proc. Astron. Soc. Australia 5, 581–586.
Jacklyn, R. M., Duldig, M. L., and Pomerantz, M. A.: 1984b,' Anisotropic and Isotropic Intensity Waves', Proc. Int. Symp. Cosmic Ray Modulation in the Heliosphere, Iwate University, Morioka, Japan, pp. 76–82.
Jacklyn, R. M., Duldig, M. L., and Pomerantz, M. A.: 1987, 'High-Energy Cosmic Ray Intensity Waves', J. Geophys. Res. 92, 8511–8518.
Jokipii, J. R. and Kota, J.: 1997, 'Galactic and Anomalous Cosmic Rays in the Heliosphere', Invited, Rapporteur and Highlight Papers, 25th Int. Cosmic Ray Conf. 8, 151–174.
Krymsky, G. F., Krivoshapkin, P. A., Mamrukova, V. P., and Skripin, G. V.: 1997, 'Long-Term Variations of the Cosmic Ray Anisotropy', Proc. 25th Int. Cosmic Ray Conf. 2, 149–151.
Kudela, K.: 1997, 'Quasiperiodic Variations and Terrestrial Environment', Invited, Rapporteur and Highlight Papers, 25th Int. Cosmic Ray Conf. 8, 175–191.
Lyons, P.R.A.: 1981, 'Atmospheric Effects of High Energy Cosmic Rays', Ph.D. Thesis, University of Tasmania.
Mori, S.: 1996, 'Cosmic Ray Modulation Ground Based Observations', Nuov. Cim. 19C, 791–804.
Munakata, K., Yasue, S., Mori, S., Kato, C., Koyama, M., Akahane, Fujii, Z., Ueno, H., Humble, J. E., Fenton, A. G., Fenton, K. B., and Duldig, M. L.: 1995, 'Two Hemisphere Observations of the North-South Sidereal Asymmetry at ~1 TeV', J. Geomagn. Geoel. 47, 1103–1106.
Munakata, K., Miyasaka, H., Hall, D.L., Yasue, S., Kato, C., Fujii, Z., Fujimoto, K., and Sakakibara, S.: 1997, 'Long Term Variation of Cosmic-Ray Diurnal Anisotropy Observed by a Network of Multi-Directional Muon Telescopes in a Wide Range of Rigidity', Proc.25th Int. Cosmic Ray Conf. 2, 77–80.
Munakata, K., Kitawada, T., Yasue, S., Mori, S., Kato, C., Koyama, M., Akahane, S., Hall, D. L., Fujii, Z., Fujimoto, K., Humble, J. E., Fenton, A. G., Fenton, K. B., and Duldig, M. L.: 1998, 'Solar Semidiurnal Anisotropy of Galactic Cosmic Ray Intensity Observed by the Two-Hemisphere Network of Surface-Level Muon Telescopes', J. Geophys. Res. 103, 26 851–26 857.
Munakata, K., Kitawada, T., Yasue, S., Mori, S., Kato, C., Koyama, M., Akahane, S., Hall, D. L., Fujii, Z., Fujimoto, K., Humble, J. E., Fenton, A. G., Fenton, K. B., and Duldig, M. L.: 1999, 'Enhanced Sidereal Diurnal Variation of Galactic Cosmic-Rays Observed by the Two-Hemisphere Network of Surface-Level Muon Telescopes', J. Geophys. Res. 104, 2511–2520.
Nagashima, K., Fujimoto, K., and Jacklyn, R. M.: 1995a, 'The Excess Influx of Galactic Cosmic Rays from the Tailend Side of the Heliomagnetosphere, Inferred from their Sidereal Daily Variation', Proc. Int. Mini-Conference on Solar Particle Physics and Cosmic Ray Modulation, STE Laboratory, Nagoya University, Japan, p. 93.
Nagashima, K., Fujimoto, K., and Jacklyn, R. M.: 1995b, 'Cosmic-Ray Sidereal Daily Variation, Showing of the Coexistence of the Galactic and Heliomagnetotail-In Anisotropies', Proc. 24th Int. Cosmic Ray Conf. 4, 652–655.
Nagashima, K., Fujimoto, K., and Jacklyn, R. M.: 1995c, 'Cosmic-Ray Excess Flux from the Heliomagnetotail', Proc. 24th Int. Cosmic Ray Conf. 4, 656–659.
Nagashima, K., Fujimoto, K., and Jacklyn, R. M.: 1998, 'Galactic and Heliotail-In Anisotropies of Cosmic-Rays as the Origin of Sidereal Daily Variation in the Energy Region < 104 GeV', J. Geophys. Res. 103, 17 429–17 440.
Parker, E. N.: 1964, 'Theory of Streaming of Cosmic Rays and the Diurnal Variation', Planetary Space Sci. 12, 735–749.
Shea, M. A., Smart, D. F., Swinson, D. B., Humble, J. E., McKinnon, J. A., and Abston, C. C.: 1989, 'Solar Activity Asymmetries and Their Possible Effect on the High Energy Cosmic Ray Perpendicular Gradient', Adv. Space Res. 9, 221–224.
Swinson, D. B.: 1969, 'Sidereal Cosmic Ray Diurnal Variations', J. Geophys. Res. 74, 5591–5598.
Swinson, D. B.: 1971, 'Solar Modulation Origin of 'sidereal' Cosmic Ray Anisotropies', J. Geophys. Res. 76, 4217–4223.
Swinson, D. B.: 1988, 'Long Term Variations of the Cosmic Ray North-South Anisotropy and the Radial Cosmic Ray Gradient at High Rigidity', J. Geophys. Res. 93, 5890–5896.
Swinson, D. B., Regener, V. H., and St. John, R. H.: 1990, 'Correlation of Cosmic Ray Diurnal Anisotropies with the Interplanetary Magnetic Field over 21 Years', Planetary Space Sci. 38, 1387–1398.
Swinson, D. B., Humble, J. E., Shea, M. A., and Smart, D. F.: 1991, 'Latitudinal Cosmic Ray Gradients: Their Relation to Solar Activity Asymmetry', J. Geophys. Res. 96, 1757–1765.
Venkatesan, D. and Badruddin: 1990, 'Cosmic-Ray Intensity Variations in the 3-Dimensional Heliosphere', Space Sci. Rev. 52, 121–194.
Yasue, S.: 1980, 'North-South Anisotropy and Radial Density Gradient of Galactic Cosmic Rays', J. Geomagnetism and Geoelectricity 32, 617–635.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Duldig, M.L. Muon Observations. Space Science Reviews 93, 207–226 (2000). https://doi.org/10.1023/A:1026596529381
Issue Date:
DOI: https://doi.org/10.1023/A:1026596529381