H. Tsuchiya scite author profile

Lightning and thunderclouds are natural particle accelerators. Avalanches of relativistic runaway electrons, which develop in electric fields within thunderclouds, emit bremsstrahlung γ-rays. These γ-rays have been detected by ground-based observatories, by airborne detectors and as terrestrial γ-ray flashes from space. The energy of the γ-rays is sufficiently high that they can trigger atmospheric photonuclear reactions that produce neutrons and eventually positrons via β decay of the unstable radioactive isotopes, most notably N, which is generated viaN + γ → N + n, where γ denotes a photon and n a neutron. However, this reaction has hitherto not been observed conclusively, despite increasing observational evidence of neutrons and positrons that are presumably derived from such reactions. Here we report ground-based observations of neutron and positron signals after lightning. During a thunderstorm on 6 February 2017 in Japan, a γ-ray flash with a duration of less than one millisecond was detected at our monitoring sites 0.5-1.7 kilometres away from the lightning. The subsequent γ-ray afterglow subsided quickly, with an exponential decay constant of 40-60 milliseconds, and was followed by prolonged line emission at about 0.511 megaelectronvolts, which lasted for a minute. The observed decay timescale and spectral cutoff at about 10 megaelectronvolts of the γ-ray afterglow are well explained by de-excitation γ-rays from nuclei excited by neutron capture. The centre energy of the prolonged line emission corresponds to electron-positron annihilation, providing conclusive evidence of positrons being produced after the lightning.

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The All‐Particle Spectrum of Primary Cosmic Rays in the Wide Energy Range from 10¹⁴to 10¹⁷eV Observed with the Tibet‐III Air‐Shower Array

Amenomori¹,

Bi²,

Chen³

et al. 2008

ApJ

207

169

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Detection of High-Energy Gamma Rays from Winter Thunderclouds

Tsuchiya¹,

et al. 2007

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A report is made on a comprehensive observation of a burstlike gamma-ray emission from thunderclouds on the Sea of Japan, during strong thunderstorms on 6 January 2007. The detected emission, lasting for approximately 40 sec, preceded cloud-to-ground lightning discharges. The burst spectrum, extending to 10 MeV, can be interpreted as consisting of bremsstrahlung photons originating from relativistic electrons. This ground-based observation provides the first clear evidence that strong electric fields in thunderclouds can continuously accelerate electrons beyond 10 MeV prior to lightning discharges.

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Anisotropy and Corotation of Galactic Cosmic Rays

Amenomori

Ayabe

et al. 2006

Science

232

146

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The intensity of Galactic cosmic rays is nearly isotropic because of the influence of magnetic fields in the Milky Way. Here, we present two-dimensional high-precision anisotropy measurement for energies from a few to several hundred teraelectronvolts (TeV), using the large data sample of the Tibet Air Shower Arrays. Besides revealing finer details of the known anisotropies, a new component of Galactic cosmic ray anisotropy in sidereal time is uncovered around the Cygnus region direction. For cosmic-ray energies up to a few hundred TeV, all components of anisotropies fade away, showing a corotation of Galactic cosmic rays with the local Galactic magnetic environment. These results have broad implications for a comprehensive understanding of cosmic rays, supernovae, magnetic fields, and heliospheric and Galactic dynamic environments.

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H. Tsuchiya

Photonuclear reactions triggered by lightning discharge

The All‐Particle Spectrum of Primary Cosmic Rays in the Wide Energy Range from 10¹⁴to 10¹⁷eV Observed with the Tibet‐III Air‐Shower Array

Detection of High-Energy Gamma Rays from Winter Thunderclouds

Anisotropy and Corotation of Galactic Cosmic Rays

Contact Info

Product

Resources

About

H. Tsuchiya

Photonuclear reactions triggered by lightning discharge

The All‐Particle Spectrum of Primary Cosmic Rays in the Wide Energy Range from 1014to 1017eV Observed with the Tibet‐III Air‐Shower Array

Detection of High-Energy Gamma Rays from Winter Thunderclouds

Anisotropy and Corotation of Galactic Cosmic Rays

Contact Info

Product

Resources

About

The All‐Particle Spectrum of Primary Cosmic Rays in the Wide Energy Range from 10¹⁴to 10¹⁷eV Observed with the Tibet‐III Air‐Shower Array