New, high statistics measurement of the K+ -> pi0 e+ nu (Ke3) branching   ratio

A. Sher; R. Appel; G.S. Atoyan; B. Bassalleck; D.R. Bergman; N.; Cheung; S. Dhawan; H. Do; J. Egger; S. Eilerts; H. Fischer; W. Herold; V.V.; Issakov; H. Kaspar; D.E. Kraus; D. M. Lazarus; P. Lichard; J. Lowe; J.; Lozano; H. Ma; W. Majid; S. Pislak; A.A. Poblaguev; P. Rehak; Aleksey Sher,; J.A. Thompson; P. Truol; M.E. Zeller

arXiv:hep-ex/0305042·hep-ex·November 26, 2008

New, high statistics measurement of the K+ -> pi0 e+ nu (Ke3) branching ratio

A. Sher, R. Appel, G.S. Atoyan, B. Bassalleck, D.R. Bergman, N., Cheung, S. Dhawan, H. Do, J. Egger, S. Eilerts, H. Fischer, W. Herold, V.V., Issakov, H. Kaspar, D.E. Kraus, D. M. Lazarus, P. Lichard, J. Lowe, J., Lozano, H. Ma, W. Majid, S. Pislak, A.A. Poblaguev, P. Rehak

PDF

TL;DR

This paper presents a high-statistics measurement of the K+ to pi0 e+ nu branching ratio, finding a value slightly higher than previous estimates, with implications for CKM matrix unitarity.

Contribution

It provides a more precise measurement of the K+ -> pi0 e+ nu branching ratio using a novel detection method and a large data sample.

Findings

01

Measured BR(K+(e3(gamma))) = (5.13 +/- 0.02(stat) +/- 0.09(sys) +/- 0.04(norm))%

02

Result is 2.3 sigma higher than the PDG value

03

Discusses implications for the CKM matrix element V_us

Abstract

E865 at the Brookhaven National Laboratory AGS collected about 70,000 K+(e3) events with the purpose of measuring the relative K+(e3) branching ratio. The pi0 in all the decays was detected using the e+e- pair from pi0 -> e+e-gamma decay and no photons were required. Using the Particle Data Group branching ratios for the normalization decays we obtain BR(K+(e3(gamma))=(5.13+/-0.02(stat)+/-0.09(sys)+/-0.04(norm))%, where $K + (e 3 (g amma)) in c l u d es t h ee f f ec t o f v i r t u a l an d r e a l p h o t o n s . T hi sr es u l t i s 2.3 s i g mahi g h er t han t h ec u r r e n tP a r t i c l eD a t a G r o u p v a l u e . T h e im pl i c a t i o n so f t hi sr es u l t f or t h e$ V_{us}$ element of the CKM matrix, and the matrix's unitarity are discussed.

Peer Reviews

No public reviews on file for this paper yet. If you reviewed it on a platform where reviews are public (OpenReview, ICLR, NeurIPS, ICML), you can paste yours below so the community can read it here.

Videos

No videos yet. Explain this paper in a talk, walkthrough, or lecture? Add one.