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Abstract A search is reported for charge-parity$$CP$$ violation in$${{{\textrm{D}}}^{{0}}} \rightarrow {{\textrm{K}} _{\text {S}}^{{0}}} {{\textrm{K}} _{\text {S}}^{{0}}} $$ decays, using data collected in proton–proton collisions at$$\sqrt{s} = 13\,\text {Te}\hspace{-.08em}\text {V} $$ recorded by the CMS experiment in 2018. The analysis uses a dedicated data set that corresponds to an integrated luminosity of 41.6$$\,\text {fb}^{-1}$$ , which consists of about 10 billion events containing a pair of b hadrons, nearly all of which decay to charm hadrons. The flavor of the neutral D meson is determined by the pion charge in the reconstructed decays$${{{\textrm{D}}}^{{*+}}} \rightarrow {{{\textrm{D}}}^{{0}}} {{{\mathrm{\uppi }}}^{{+}}} $$ and$${{{\textrm{D}}}^{{*-}}} \rightarrow {\overline{{\textrm{D}}}^{{0}}} {{{\mathrm{\uppi }}}^{{-}}} $$ . The$$CP$$ asymmetry in$${{{\textrm{D}}}^{{0}}} \rightarrow {{\textrm{K}} _{\text {S}}^{{0}}} {{\textrm{K}} _{\text {S}}^{{0}}} $$ is measured to be$$A_{CP} ({{\textrm{K}} _{\text {S}}^{{0}}} {{\textrm{K}} _{\text {S}}^{{0}}} ) = (6.2 \pm 3.0 \pm 0.2 \pm 0.8)\%$$ , where the three uncertainties represent the statistical uncertainty, the systematic uncertainty, and the uncertainty in the measurement of the$$CP$$ asymmetry in the$${{{\textrm{D}}}^{{0}}} \rightarrow {{\textrm{K}} _{\text {S}}^{{0}}} {{{\mathrm{\uppi }}}^{{+}}} {{{\mathrm{\uppi }}}^{{-}}} $$ decay. This is the first$$CP$$ asymmetry measurement by CMS in the charm sector as well as the first to utilize a fully hadronic final state.
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This content will become publicly available on May 1, 2026
Modular apparatus for nuclear reactions spectroscopy (MARS): characterization and first application to determine $$^{12}$$C($$^6$$Li,$$^4$$He)$$^{14}\hbox {N}^{g.s}$$ nuclear reaction cross sections
Abstract This work presents MARS (Modular apparatus for nuclear reactions spectroscopy) and its characterization prior to its first application to measure$$^6$$ Li+$$^{12}$$ C nuclear reactions. Measurements were performed at the 3 MV tandem accelerator of the CNA (National Accelerator Center), in Seville, Spain. The$$^{6}$$ Li projectiles were accelerated at energies around the$$^6$$ Li+$$^{12}$$ C Coulomb barrier ($$V^{\text {cm}}_{B}\sim 3.0$$ MeV - center of mass and$$V^{\text {lab}}_{B}\sim 4.5$$ MeV - laboratory frame). Using a$$^{6}\hbox {Li}^{2+}$$ beam, we measured at 13 laboratory energies from 4.00 to 7.75 MeV. Thus, we present the excitation function of$$^{12}$$ C($$^6$$ Li,$$^4$$ He)$$^{14}\hbox {N}^{g.s.}$$ reaction, at 2 backward angles ($$110.0^\circ $$ and$$140.0^\circ $$ ). The projectile dissociation, leading to this reaction, increases with the bombarding energies around the Coulomb barrier. This dissociation is favored at an optimum energy$$E_{b}^{\text {op}}$$ $$\ge $$ $$V_{B}$$ +$$|Q_{bu}|$$ , where$$V_{B}$$ is the Coulomb barrier of the system, and$$|Q_{bu}|$$ is the module ofQ-value for the$$^6$$ Li dissociation into$$^4$$ He+$$^2$$ H. This result corroborates a systematic analysis of weakly bound projectiles reacting on several targets [1].
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- Award ID(s):
- 1927130
- PAR ID:
- 10649106
- Publisher / Repository:
- Springer
- Date Published:
- Journal Name:
- The European Physical Journal Plus
- Volume:
- 140
- Issue:
- 5
- ISSN:
- 2190-5444
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
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