K-series X-ray yield measurement of kaonic hydrogen atoms in a gaseous target
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We measured the $K$-series X-rays of the $K^{-}p$ exotic atom in the SIDDHARTA experiment with a gaseous hydrogen target of 1.3 g/l, which is about 15 times the $\rho_{\rm STP}$ of hydrogen gas. At this density, the absolute yields of kaonic X-rays, when a negatively charged kaon stopped inside the target, were determined to be 0.012$^{+0.004}_{-0.003}$ for $K_{\alpha}$ and 0.043$^{+0.012}_{-0.011}$ for all the $K$-series transitions $K_{tot}$. These results, together with the KEK E228 experiment results, confirm for the first time a target density dependence of the yield predicted by the cascade models, and provide valuable information to refine the parameters used in the cascade models for the kaonic atoms.
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Cited by 2 Pith papers
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Kaonic Copper and Fluorine Absolute Yields Measurement with a CZT-based Detection System at DA$\Phi$NE
Absolute X-ray yields measured for kaonic copper and fluorine show n-dependent behavior with suppression of the 4→3 transition in fluorine, yielding a lower limit on the strong-interaction width at n=4.
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Kaonic Copper and Fluorine Absolute Yields Measurement with a CZT-based Detection System at DA$\Phi$NE
Absolute X-ray yields measured for kaonic copper and fluorine transitions using CZT detectors at DAΦNE, with observed suppression of the 4→3 yield in fluorine yielding a lower limit on strong-interaction width.
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