Effects of final state interaction in B^+_c to D^0 K^+ decay
author
Abstract:
In this paper, the decay of Bc+ meson, which consists of two b and c heavy quarks, into the Do and K+ mesons was studied. Given that the experimental branching ratio for this decay was within the range of 3.75*10-5 to 11.16*10-5; it was decided to calculate the theoretical branching ratio by applying the final state interaction (FSI) through the T and cross-section channels. In this process, before the Bc+ meson was decayed into two final state mesons of DoK+, it was first decayed into two intermediate mesons like j/ψDs*+; then, these two mesons were transformed into two final mesons by exchanging another meson like Do. The FSI effects were very sensitive to the changes in the phenomenological parameter, which appeared in the form factor relation; this is since in most calculations, changing two units in this parameter makes the final result be multiplied by the branching ratio; therefore, the decision to use FSI was not unexpected. In this study, there were nineteen intermediate states in which the contribution of each one was calculated and summed in the final amplitude. Therefore, the numerical value of the branching ratio of +B+c →DoK decay was obtained by calculating the FSI effects from 1.75 * 10-5to 11.65 * 10-5, which was consistent with the experimental results
similar resources
Final State Interaction Effects in B+→J/ψ π+ Decay
In this research the exclusive decay of is calculated by QCD factorization (QCDF) method and final state interaction (FSI). First, the decay is calculated via QCDF method. The result that is found by using the QCDF method is less than the experimental result. So FSI is considered to solve the decay. For this decay, via the exchange of mesons are chosen for the intermedi...
full textFinal State Interaction in Heavy Hadron Decay
Though nothing is known for B → ππ,Kπ,KK, we might conjecture that the FSI phases diminish as the initial mass increases. Meanwhile the relative FSI phase is known for the ggg and ”γ” decay amplitudes of the J/ψ decays: 3 ∆δ ≈ 90 and 75 for J/ψ → 00 and 01, respectively. Therefore, if the FSI phases diminish with the increasing initial mass, it should start diminishing somewhere between mJ/ψ an...
full textFinal-state Interactions in the Decay B
In this article, we study the final-state rescattering effects in the decay B0 → ηcK, the numerical results indicate the corrections are comparable with the contribution from the naive factorizable amplitude, and the total amplitudes can accommodate the experimental data. PACS numbers: 13.20.He; 14.40.Lb
full textFinal State Interactions in Hypernuclear Decay
We present an update of the One-Meson-Exchange (OME) results for the weak decay of sand p-shell hypernuclei [1], paying special attention to the role played by final state interactions between the emitted nucleons. The present study also corrects for a mistake in the inclusion of the K and K exchange mechanisms, which substantially increases the ratio of neutroninduced to proton-induced transit...
full textanalyzing patterns of classroom interaction in efl classrooms in iran
با به کار گیری روش گفتما ن شنا سی در تحقیق حا ضر گفتا ر میا ن آموزگا را ن و زبا ن آموزا ن در کلا سهای زبا ن انگلیسی در ایرا ن مورد بررسی قرار گرفت. ا هداف تحقیق عبا رت بودند از: الف) شنا سا ئی سا ختارهای ارتبا ط گفتا ری میا ن معلمین و زبا ن آموزا ن ب) بررسی تا ثیر نقش جنسیت دبیرا ن و زبا ن آموزان بر سا ختا رهای ارتبا ط گفتا ری میا ن آنها پ) مشخص کردن اینکه آ یا آموزگاران غا لب بر این ارتبا ط گف...
Ample D4-D2-D0 Decay
We study the wall-crossing behavior of the index of BPS states forD4−D2−D0 brane systems on a Calabi-Yau 3-fold at large radius and point out that not only is the “BPS index at large radius” chamber-dependent, but that the changes in the index can be large in the sense that they dominate single-centered black hole entropy. We discuss implications for the weak coupling OSV conjecture. We also an...
full textMy Resources
Journal title
volume 19 issue 2
pages 415- 424
publication date 2019-09
By following a journal you will be notified via email when a new issue of this journal is published.
No Keywords
Hosted on Doprax cloud platform doprax.com
copyright © 2015-2023