Measurement of the absolute branching fraction of D+→K0e+ve via K0→π0π0

By analyzing 2.93 fb^-1 data collected at the center-of-mass energy √s=3.773 GeV with the BESIII detector, we measure the absolute branching fraction of the semileptonic decay D⁺→K⁰e⁺v_e to be B(D⁺→K⁰e⁺v_e)=(8.59±0.14±0.21)% using K⁰→K_S⁰→π⁰π⁰, where the first uncertainty is statistical and the second systematic. Our result is consistent with previous measurements within uncertainties..     

Recent Beijing Spectroscopy (BES) results

Recent experimental results from Beijing Spectroscopy (BES) are reviewed, including the hadron spectroscopy from J/ψ decays, and a number of new states are found or confirmed, including σ, κ, X(1835), ωφ threshold enhancement in J/ψ→γωφ, a broad resonance in J/ψ→K ⁺ K ⁻ π ⁰, decay studies of ψ(2S) and χ _CJ , as well as the results of ψ(3770) non-D decays. The current status of BEPCII/BESIII, the major upgrade of BEPC/BESII, is also reported. Supported by the National Natural Science Foundation of China (Grant No. 10491300)     

北京谱仪实验物理成果

当前描述物质微观基本结构最成功的理论是粒子物理的标准模型,包括描述强作用力的量子色动力学,描述弱相互作用和电磁作用力的电弱理论。在量子色动力学方面,人们对夸克禁闭问题和低能非微扰性质还不能完全理解;在电弱理论方面,需要实验上提供更加精确的参数约束和检验。北京正负电子对撞机和北京谱仪实验是我国最早的大科学装置,也是目前国际上唯一运行在陶粲能量区域的高亮度实验装置,致力于在强子物理、量子色动力学的非微扰性质、电弱理论检验和寻找超标准模型的新物理等方面开展研究。文章将介绍北京谱仪多年来在实验上取得的科学成果,包括陶轻子质量精确测量、R值测量、奇特强子态研究和粲强子弱衰变测量等。