Latest D0 results on exotic hadrons produced in $p\bar p $ collision

A. Drutskoy
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Abstract

Prompt and nonprompt productions of exotic multiquark states are studied using the $\sim$10.4 fb$^{-1}$ data sample collected by the D0 experiment in Tevatron $p\bar{p}$ collisions at $\sqrt{s}$ = 1.96 TeV. The recent D0 results on the prompt and nonprompt production of the $X(3872)$ and $Z_c^+(3900)$ states and the $P_c$ pentaquarks at the 4450 MeV region are reported. Signals corresponding to these states are found in the nonprompt production, whereas only the $X(3872)$ state is seen in the prompt production. The ratio of prompt to nonprompt $X(3872)$ production is about three times larger in the D0 measurement than that obtained by the ATLAS experiment at 8 TeV. Theoretically, the production, formation, coalescence, and disassociation processes are expected to be quite different for conventional mesons with a spatial size of (0.4-0.8) fm, compact multiquark states such as tetraquarks with a size of a few fm, and spatially extended molecular states with a size of (4-10) fm. They can be differently affected in prompt hadron-hadron collisions where there are many additional particles emitted from the interaction point. Consequently, the prompt to nonprompt production ratio of spatially extended exotic states can be suppressed at LHC comparing with the Tevatron conditions, because of large difference in the hadron-hadron collisions particle multiplicity. The prompt production studies provide an opportunity to better understand the nature of exotic states.
$p\bar p $碰撞中产生的奇异强子的最新D0结果
利用在$\sqrt{s}$ = 1.96 TeV的Tevatron $p\bar{p}$碰撞中D0实验收集的$\sim$ 10.4 fb $^{-1}$数据样本,研究了奇异多夸克态的提示和非提示产生。本文报道了在4450 MeV区域迅速和非迅速产生$X(3872)$和$Z_c^+(3900)$态以及$P_c$五夸克的最新D0结果。与这些状态相对应的信号可以在非提示生成中找到,而在提示生成中只看到$X(3872)$状态。在D0测量中,瞬态与非瞬态$X(3872)$产生的比例大约是ATLAS实验在8 TeV下获得的三倍。理论上,空间大小为(0.4-0.8)fm的传统介子、大小为几fm的紧凑多夸克态(如四夸克)和大小为(4-10)fm的空间扩展分子态的产生、形成、聚并和解离过程预计是完全不同的。在强子-强子快速碰撞中,当从相互作用点发射出许多额外的粒子时,它们会受到不同的影响。因此,与Tevatron条件相比,由于强子-强子碰撞粒子多重性的巨大差异,LHC条件下空间扩展奇异态的提示与非提示产生比可以被抑制。快速生产研究为更好地理解外来状态的本质提供了机会。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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