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A.S. Lidvansky, M.N. Khaerdinov, N.S. Khaerdinov

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Presentation on theme: "A.S. Lidvansky, M.N. Khaerdinov, N.S. Khaerdinov"— Presentation transcript:

1 A.S. Lidvansky, M.N. Khaerdinov, N.S. Khaerdinov
Charge Ratio of Low Energy Muons Derived from the Data on Variations of Muons during Thunderstorms A.S. Lidvansky, M.N. Khaerdinov, N.S. Khaerdinov Institute for Nuclear Research, Russian Academy of Sciences, Moscow, Russia

2 Baksan Air Shower Array (BASA)
Central Carpet (400 liquid scintillators) Six huts (108 liquid scintillators) Muon Detector (175 plastic scintillators under 2 m of rock). Energy threshold 1 GeV

3 Amplitude spectrum from a layer of scintillators
Two thresholds are used to separate soft and hard components: Soft component is detected by huts between low (Al) and upper (Ah) thresholds. Electrons – 20%, positrons – 10%, -rays – 50%, admixture of muons is less than 20%. Hard component is measured by Carpet detectors (under concrete roof 29 g/cm2) above upper threshold (muons 90%)

4 Universal instrument for measuring the near-ground electrostatic field of the atmosphere and precipitation electric current Measurements of electrostatic and slowly variable field in the range from from -40 kV/m up to +40 kV/m with an accuracy of ~ 10 V/m. Precipitation electric current is measured in the range from -50 nA/m2 up to +50 nA/m2 with an accuracy of ~ 10 pA/m2. The instrument allows one to measure not only thunderstorm field but also the background (fair weather) electric field by a single method.

5 Record enhancement during thunderstorm on October 11, 2003
Estimates of minimal distance to two lightning strokes exerting strong effect on the intensity are 4.4 and 3.1 km. Other lightning discharges,including very near, give no such an effect.

6 Events on June 18, 2008 (left, averaged over 15 s) and July 18, 2008 (right, averaged over 30 s)

7 Two strong variations of muons on one day of a year separated by seven years: September 24, 2000 and In the latter event sharp variations associated with lightning discharges are observed

8 Muons with E > 100 MeV Stopping muons (15 < E < 90 MeV) Muons with E > 1 GeV

9 Weighted mean coefficients of approximations by second-degree polynomials of the intensity – field regression curves for different components Component Energy Linear coefficient, % per kV/m Quadratic coefficient, % per (kV/m)2 Muons > 1 GeV Hard component (muons) > 100 MeV Stopping muons 20 – 80 MeV

10 Muons with E > 100 МэВ, deviation from the mean intensity as a function of near-ground electric field strength (weighted average curve, summation over separate thunderstorms) Solid circles correspond to distribution after exclusion of ±300-second periods of active thunderstorm phase. Variations with large dispersion have no effect on the regular variation with the near-ground field.

11 Kinetic equation for muon intensity (one-dimensional problem):
where is vertical profile of the Lorentz force normalized to air density

12 Intensity of muons during thunderstorms
J0μ is the spectrum without field, R is the mean atmospheric field under the local charge, and R is its dispersion, and  is the potential difference between the ground level and muon production level.

13 Here, D is the measured near-earth field strength, while DR и R2 represent the mean field and its dispersion for atmospheric region under the local charge.

14 Regression coefficients with field
Here, D is the measured near-earth field strength, while DR и R2 represent the mean field and its dispersion for atmospheric region under the local charge. Parameters δ reflect integral charge asymmetry of muons. They are connected with differential value of (δ) by the relations: Charge asymmetry and muon ratio. They can be determined from experimental data.

15 Coefficients of regression for muon intensity at different thresholds and parameters of electric field of the atmosphere

16 Muon charge ratio at low energies derived by different methods

17 Conclusions Variations of muon intensity are studied during thunderstorm periods. A model of their formation is constructed . Constant parameters of regular near-ground field at observation place are determined. Muon charge asymmetry is estimated at low energies. Disturbances of muon intensity can be used for evaluating the potential difference in the stratosphere.

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