Presentation is loading. Please wait.

Presentation is loading. Please wait.

Precursor signatures of storm sudden commencement observed by a network of muon detectors C. R. BRAGA 1, A. DAL LAGO 1, M. ROCKENBACH 2, N. J. SCHUCH 3,

Published byEmerald Marshall Modified over 9 years ago

Similar presentations

Presentation on theme: "Precursor signatures of storm sudden commencement observed by a network of muon detectors C. R. BRAGA 1, A. DAL LAGO 1, M. ROCKENBACH 2, N. J. SCHUCH 3,"— Presentation transcript:

1 Precursor signatures of storm sudden commencement observed by a network of muon detectors C. R. BRAGA 1, A. DAL LAGO 1, M. ROCKENBACH 2, N. J. SCHUCH 3, L. R. VIEIRA 1, K. MUNAKATA 4, C. KATO 4, T. KUWABARA 5, P. A. EVENSON 5, J. W. BIEBER 5, M. TOKUMARU 6, M. L. DULDIG 7, J. E. HUMBLE 7, I. S. SABBAH 8, H. K. AL JASSAR 9, M. M. SHARMA 9 1 National Institute for Space Research, São Jose dos Campos, Brazil 2 Universidade do Vale do Paraíba,São Jose dos Campos, Brazil 3 Southern Regional Space Research Center, Santa Maria, Brazil 4 Physics Department, Shinshu University, Matsumoto, Japan 5 Bartol Research Institute and Department of Physics and Astronomy, University of Delaware, Newark, USA 6 Solar-Terrestrial Environment Laboratory, Nagoya University, Nagoya, Japan 7 School of Mathematics and Physics, University of Tasmania, Tasmania, Australia 8 Department of Natural Sciences, College of Health Sciences, the Public Authority of Applied Education and Training, Kuwait - Department of Physics, Faculty of Science, Alexandria University, Alexandria, Egypt 9 Physics Department, Faculty of Science, Kuwait University, Kuwait City, Kuwait E-mail: crbraga@dge.inpe.br

2 2 Detectors photographs (except Sao Martinho da Serra): private communication with Prof. K. Munakata, 2010 and Prof. I. Sabbah, 2011 Background source: http://earthsatellitemaps.com/wp-content/uploads/2009/06/mapofearth.jpg, 2010http://earthsatellitemaps.com/wp-content/uploads/2009/06/mapofearth.jpg Global Muon Detector Network (GMDN) São Martinho da Serra Kuwait Hobart Nagoya 4 x 7 6 x 6 3 x 3 (4 x 4) 3 x 3

3

4 Source: Yashin et al. (2006).

5 Methodology - Pressure effect correction; - Temperature effect correction; - Trailing moving average; - First order anisotropy; - Normalization by statistical error. Objective To study the possibility of observing cosmic ray precursors of a weak geomagnetic storm registered in November 24th 2008 with storm sudden commencement (SSC) at 23:51 UT.

6 Negative temperature effect ∆H: deviation of the altitude of 100 hPa Correlation=-0.95 Dev(%)=-5.9 (%/km) ∙ ∆H (km) + 97% Deviation Na V(%) Altitude (km) of 100 hPa layer

7 Temperature effect correction Correlation=-0.95 Nagoya: α≥ 0.95 -6.7 ≤ β ≤ -5.9 %/km São Martinho da Serra : α≥ 0.49 -4.8 ≤ β ≤ -3.7 %/km Hobart: α≥ 0.72 -5.0 ≤ β ≤ -3.6 %/km Kuwait: α≥ 0.89 -7.3 ≤ β ≤ -6.1 %/km Dev(%)=-5.9 (%/km) ∙ ∆H (km) + 97% Deviation Na V(%) Altitude (km) of 100 hPa layer β: regression coefficient (slope) α: correlation coefficient

8 High-altitude measurements sites High-altitude pressure measurements sites Muon station Approx. distance (km) Name Geographic coordinates (degrees) Shionomisaki33.5 N; 140.1 E Nagoya 200 Tateno36.0 N;140.1 E400 Wajina37.4 N; 136.9 E300 Porto Alegre30.0 S; 308.8 ESão Martinho da Serra260 Kuwait29.2 N; 48.0 EKuwait10 Hobart42.8 S; 147.5 EHobart30

9 Day of year (2008) Seasonal temperature effect correction Kuwait Dev (%) Nagoya Dev V(%) Hobart Dev V(%) SMS Dev V(%) NORTH HEMISPHERE SOUTH HEMISPHERE SUMMERWINTER SUMMERWINTER SUMMER WINTER

10 Trailing moving average (TMA) TMA of the reference directional channel (i=1) of the reference station (j=1) Uncorrected data Corrected data Directional Channel Station 10 Removing spurious diurnal variation (following Kuwabara et al., 2004; Okazaki et al., 2008)

11 Pitch angle calculation Pitch angle IMF direction SUN B Asymptotic direction of view of the i-th directional channel of the j-th station EARTH 11

12 First order anisotropy Nagoya (i=1, j=1,2,…,13) São Martinho (i=2, j=1,2,…,13 Kuwait (i=3, j=1,2,…,13 Hobart (i=4, j=1,2,…,13 52x1 52x5 5x1 : observed normalized deviation i є [1,4] (detector) j є [1,13] (directional channel) : effects common for all directional channels but different from one station to the other : first-order anisotropy : pitch angle (deg)

13 Results Systematic decrease for small pitch angles: loss cone signature! The diameter is proportional to the magnitude. IncreaseDecrease SSC: 2011/11/24 23h51min 0.3%

14 Average deviation (%) Results 1-6 h before the SSC 6-11 h before the SSC 11-16 h before the SSC 16-21 h before the SSC Average deviation (%) for all directional channels in 10-degree pitch angle regions in 5-hour periods in November 24 th 2008.

15 Summary and conclusions This work illustrates a methodology for visualization of loss cones signatures We used simultaneous observation of 4 multidirectional muon detectors; Total number of directional channels: 60; Pressure and temperature effect were removed; Daily variation was removed by using a trailing moving average; Weak geomagnetic storm: the most difficult case to show the precursors.

16 Acknowledgements This work was partially founded by FAPESP under project number 2008-08840-0, by CNPq under projects 303798/2008-4 and 481368/2010-8. Thanks to CAPES through the Graduate Program in Space Geophysics. Radiosonde data has been provided by UKMO and BADC. Dst index data were provided by the World Data Center for Geomagnetism, IMF and plasma data by the ACE mission and Kp and SSC data by the Helmholtz Centre Potsdam German Research Centre for Geosciences. References [1] T. Kuwabara et al., 2006, Space Weather, 4, S08001 [2] D. Ruffolo et al., 1999, Proceedings of the 26 th Int. Cosmic Ray Conf., 53. [3] L. I. Dorman: 1963 Geophysical and Astrophysical Aspects of Cosmic Rays, Prog. Phys., Cosmic Ray Elementary Particles, North-Holland. [4] K. Nagashima et al., 1992, Planet. Space Sci., 40: 1109-1137 [5] K. Munakata et al., 2000, J. Geophys. Res., 105 (A12): 27427-27468 [6] K. Kudela; M. Storini, 2006, Adv. Space Res., 37(8): 1443-1449 [7] A. V. Belov et al., 2001, Proceedings of the 27 th Int. Cosmic Ray Conf., 3507-3510 [8] Y. Okazaki et al., 2008, Astrophys. J., 681: 693-707 [9] A. Duperier, 1944, Terrestrial and Magnetic Atmospheric Electricity, 49: 1-7 [10] A. Duperier, 1949, Proceddings of the Physical Society, 62: 684-696 [11] P. M. S. Blackett, 1938, Phys. Rev. Let. 54: 973-974 [12] S. Sagisaka, 1986, Il Nuovo Cimento, 9C: 4809 [13] T. Kuwabara et al., 2004, J. Geophys. Res., 100: L19803. Thank you!

17 Pressure effect correction Pressure correction

18 First order anisotropy SSC: 2011/11/24 23h51min

Download ppt "Precursor signatures of storm sudden commencement observed by a network of muon detectors C. R. BRAGA 1, A. DAL LAGO 1, M. ROCKENBACH 2, N. J. SCHUCH 3,"

Similar presentations

Cosmic Rays and Space Weather

Cosmic Rays and Space Weather
1 Belov A., Baisultanova L., Eroshenko E., Yanke V. (IZMIRAN, Russia), Mavromichalaki H. (Athens University, Greece), Pchelkin V. (PGI, Russia) Magnetospheric.

1 Belov A., Baisultanova L., Eroshenko E., Yanke V. (IZMIRAN, Russia), Mavromichalaki H. (Athens University, Greece), Pchelkin V. (PGI, Russia) Magnetospheric.
Study of Pi2 pulsations observed from MAGDAS chain in Egypt E. Ghamry 1, 2, A. Mahrous 2, M.N. Yasin 3, A. Fathy 3 and K. Yumoto 4 1- National Research.

Study of Pi2 pulsations observed from MAGDAS chain in Egypt E. Ghamry 1, 2, A. Mahrous 2, M.N. Yasin 3, A. Fathy 3 and K. Yumoto 4 1- National Research.
Cosmic Ray Using for Monitoring and Forecasting Dangerous Solar Flare Events Lev I. Dorman (1, 2) 1. Israel Cosmic Ray & Space Weather Center and Emilio.

Cosmic Ray Using for Monitoring and Forecasting Dangerous Solar Flare Events Lev I. Dorman (1, 2) 1. Israel Cosmic Ray & Space Weather Center and Emilio.
4/18 6:08 UT 4/17 6:09 UT Average polar cap flux North cap South cap… South cap South enter (need to modify search so we are here) South exit SAA Kress,

4/18 6:08 UT 4/17 6:09 UT Average polar cap flux North cap South cap… South cap South enter (need to modify search so we are here) South exit SAA Kress,
North-West University, Potchefstroom November 18, 2011 Ground-Based Cosmic Ray Detectors for Space Weather Applications John W Bieber University of Delaware,

North-West University, Potchefstroom November 18, 2011 Ground-Based Cosmic Ray Detectors for Space Weather Applications John W Bieber University of Delaware,
Cosmic Rays and Space Weather Erwin O. Flückiger Laurent Desorgher, Rolf Bütikofer, Benoît Pirard Physikalisches Institut University of Bern

Cosmic Rays and Space Weather Erwin O. Flückiger Laurent Desorgher, Rolf Bütikofer, Benoît Pirard Physikalisches Institut University of Bern
Spatio-temporal structures of equatorial F-region plasma irregularities & Geomagnetic Regular Daily Variations (Sq, Solar quiet) as seen in space and at.

Spatio-temporal structures of equatorial F-region plasma irregularities & Geomagnetic Regular Daily Variations (Sq, Solar quiet) as seen in space and at.
CHAMP Observations of Multiple Field-Aligned Currents Dimitar Danov 1, Petko Nenovski 2 Solar-Terrestrial Influences Laboratory, Bulgarian Academy of Sciences,

CHAMP Observations of Multiple Field-Aligned Currents Dimitar Danov 1, Petko Nenovski 2 Solar-Terrestrial Influences Laboratory, Bulgarian Academy of Sciences,
Towards a European Infrastructure for Lunar Observatories Bremen, Wednesday 23 rd March 2005 A 3D cosmic ray detector on the Moon X. Moussas University.

Towards a European Infrastructure for Lunar Observatories Bremen, Wednesday 23 rd March 2005 A 3D cosmic ray detector on the Moon X. Moussas University.
State Key Laboratory of Space Weather An inter-hemisphere asymmetry of the cusp region against the geomagnetic dipole tilt Jiankui Shi Center for Space.

State Key Laboratory of Space Weather An inter-hemisphere asymmetry of the cusp region against the geomagnetic dipole tilt Jiankui Shi Center for Space.
Coronal Ejecta in October - November of 2003 and predictions of the associated geomagnetic events 1 Big Bear Solar Observatory, New Jersey Institute of.

Coronal Ejecta in October - November of 2003 and predictions of the associated geomagnetic events 1 Big Bear Solar Observatory, New Jersey Institute of.
Introduction The primary geomagnetic storm indicator is the Dst index. This index has a well established ‘recipe’ by which ground-based observations are.

Introduction The primary geomagnetic storm indicator is the Dst index. This index has a well established ‘recipe’ by which ground-based observations are.
1 Interactive DataBase of Cosmic Ray Anisotropy (DB A10) Asipenka A.S., Belov A.V., Eroshenko E.F., Klepach E.G., Oleneva V. A., Yanke, V.G. IZMIRAN, Pushkov.

1 Interactive DataBase of Cosmic Ray Anisotropy (DB A10) Asipenka A.S., Belov A.V., Eroshenko E.F., Klepach E.G., Oleneva V. A., Yanke, V.G. IZMIRAN, Pushkov.
SHINE 2008 June, 2008 Utah, USA Visit our Websites:

SHINE 2008 June, 2008 Utah, USA Visit our Websites:
Efficacy of Muon Detection for Solar Flare Early Warning Canadian Muon Workshop St-Émile-de-Suffolk, Québec, Canada October 17-19, 2011 NRCan DND Carleton.

Efficacy of Muon Detection for Solar Flare Early Warning Canadian Muon Workshop St-Émile-de-Suffolk, Québec, Canada October 17-19, 2011 NRCan DND Carleton.
1 Seasonal variations of the muon flux seen by the muon detector BUST 1 Institute of Terrestrial Magnetism, Ionosphere and Radiowave Propagation RAN of.

1 Seasonal variations of the muon flux seen by the muon detector BUST 1 Institute of Terrestrial Magnetism, Ionosphere and Radiowave Propagation RAN of.
Variations of the high energy muon flux and space-time structure of the temperature profile in the atmosphere M.G. Kostyuk 1, V.B. Petkov 1, R.V. Novoseltseva.

Variations of the high energy muon flux and space-time structure of the temperature profile in the atmosphere M.G. Kostyuk 1, V.B. Petkov 1, R.V. Novoseltseva.
CME-GEOMETRY AND COSMIC-RAY ANISOTROPY OBSERVED BY A PROTOTYPE MUON DETECTOR NETWORK K. Munakata 1, T. Kuwabara 1, J. W. Bieber 2, P. Evenson 2, R. Pyle.

CME-GEOMETRY AND COSMIC-RAY ANISOTROPY OBSERVED BY A PROTOTYPE MUON DETECTOR NETWORK K. Munakata 1, T. Kuwabara 1, J. W. Bieber 2, P. Evenson 2, R. Pyle.
North-south anisotropy of galactic cosmic rays observed with the Global Muon Detector Network 34 th ICRC (August 4, 2015, Den Hague) SH07 ID117 K. Munakata.

North-south anisotropy of galactic cosmic rays observed with the Global Muon Detector Network 34 th ICRC (August 4, 2015, Den Hague) SH07 ID117 K. Munakata.

Similar presentations

Ads by Google