AstronomyResearchers measure boron flux in high-energy cosmic rays with...

Researchers measure boron flux in high-energy cosmic rays with the CALorimetric Electron Telescope (CALET)

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Researchers have measured boron flux and the boron-to-carbon ratio in high-energy cosmic rays based mostly on the info collected with the Calorimetric Electron Telescope over greater than six years on the Worldwide House Station. Credit score: Yosui Akaike of Waseda College, Japan

Cosmic rays (CR) represent high-energy particles that primarily originate exterior our solar system. These major CR work together with interstellar matter to provide secondary CR. The secondary nature of their origin is mirrored within the larger abundance of sunshine components, comparable to boron (B), in secondary CR relative to the solar system.

Likewise, the first CR could be quantified when it comes to the quantity of carbon (C) nuclei. Consequently, measurements of the secondary-to-primary abundance ratios (as B/C) are attainable. This can assist notice higher galactic CR propagation fashions by constraining their parameters which are proportional to the typical materials path size (λ) traversed by CR within the galaxy at excessive energies.

Present research point out that λ follows a power-law variation. It’s inversely associated to E raised to the δth energy, the place E is the CR vitality per nucleon and δ is named the diffusion spectral index. The galactic CR propagation could be investigated by exactly figuring out the vitality dependence of λ.

On this regard, a crew of worldwide researchers, led by Professor Emeritus Shoji Torii from Waseda College, Japan, has now prolonged the measurements of secondary CR within the tera electronvolts/nucleon (TeV/n) area with excessive statistics and diminished systematic uncertainties. Their work, printed in Bodily Assessment Letters on December 16, 2022, concerned contributions from Dr. Paolo Maestro from the College of Siena, Italy, and Dr. Yosui Akaike from Waseda College.

Waseda University researchers measure boron flux in high-energy cosmic rays with the CALorimetric Electron Telescope (CALET)
(a) Boron and (b) carbon flux (multiplied by E2.7) and (c) ratio of boron to carbon, as a operate of kinetic vitality, E. Whereas the error bars of CALET knowledge (in crimson) signify solely the statistical uncertainty, the yellow band signifies the quadratic sum of statistical and systematic errors. Credit score: Yosui Akaike of Waseda College, Japan

Akaike briefly discusses the basic contribution of their examine. “Our analysis presents new direct measurements of the vitality spectrum of B and the B/C flux ratio within the vitality vary 8.4 GeV/n to three.8 TeV/n, based mostly on the info collected by the CALorimetric Electron Telescope (CALET) from October 13, 2015, to February 28, 2022 aboard the Worldwide House Station. The C vitality spectrum has additionally been up to date. The measurements point out glorious cost identification, correct monitoring, and good vitality sampling of the CR particles as much as the TeV area,” he says.

By analyzing the CALET knowledge, the researchers noticed that B exhibits a special vitality spectrum from C when it comes to its spectral index worth: -3.047 for low energies. The index appears to harden (by 0.25) greater than it does for C (by 0.19), albeit with low statistical significance, at a transition energy of round 200 GeV/n. The B/C ratio could be fitted with a single energy legislation operate with a spectral index of -0.366, even at excessive energies.

Additional, as a result of slight distinction within the hardening between B and C, the researchers tried to suit a “leaky-box mannequin” of CR propagation within the galaxy to the B/C ratio. On this strategy, the CR have been modeled as “leaking” from the galaxy. Their outcomes pointed to the potential of a non-zero residual worth of λ. Bodily, this means that the first CR cross a column density of matter inside the acceleration area. They then produce new secondary B nuclei close to the CR supply, hardening the ratio.

“The offered outcomes might considerably contribute to our understanding of cosmic ray propagation mechanism in supernova remnants and our galaxy. Extra importantly, nevertheless, pure science analysis can stimulate an mental curiosity about our universe and assist us higher comprehend what life may seem like at locations just like the Moon and Mars,” concludes Akaike.

Extra info:
O. Adriani et al, Cosmic-Ray Boron Flux Measured from 8.4 GeV/n to three.8 TeV/n with the Calorimetric Electron Telescope on the Worldwide House Station, Bodily Assessment Letters (2022). DOI: 10.1103/PhysRevLett.129.251103

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Waseda University


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Researchers measure boron flux in high-energy cosmic rays with the CALorimetric Electron Telescope (CALET) (2023, January 26)
retrieved 26 January 2023
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