Precision measurement of the neutral pion lifetime

PrimEx-II Collaboration†

doi:10.1126/science.aay6641

Precision measurement of the neutral pion lifetime

PrimEx-II Collaboration†

Research output: Contribution to journal › Article › peer-review

30 Citations (Scopus)

Abstract

The explicit breaking of the axial symmetry by quantum fluctuations gives rise to the so-called axial anomaly. This phenomenon is solely responsible for the decay of the neutral pion p⁰ into two photons (gg), leading to its unusually short lifetime. We precisely measured the decay width G of the p⁰ → gg process. The differential cross sections for p⁰ photoproduction at forward angles were measured on two targets, carbon-12 and silicon-28, yielding G(p⁰ → gg) = 7.798 ± 0.056(stat.) ± 0.109(syst.) eV, where stat. denotes the statistical uncertainty and syst. the systematic uncertainty. We combined the results of this and an earlier experiment to generate a weighted average of G(p⁰ → gg) = 7.802 ± 0.052(stat.) ± 0.105(syst.) eV. Our final result has a total uncertainty of 1.50% and confirms the prediction based on the chiral anomaly in quantum chromodynamics.

Original language	English
Pages (from-to)	506-509
Number of pages	4
Journal	Science
Volume	368
Issue number	6490
DOIs	https://doi.org/10.1126/science.aay6641
Publication status	Published - 1 May 2020
Externally published	Yes

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10.1126/science.aay6641

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@article{1199d20b3fed4595b34f66f0b2d0c02b,

title = "Precision measurement of the neutral pion lifetime",

abstract = "The explicit breaking of the axial symmetry by quantum fluctuations gives rise to the so-called axial anomaly. This phenomenon is solely responsible for the decay of the neutral pion p0 into two photons (gg), leading to its unusually short lifetime. We precisely measured the decay width G of the p0 → gg process. The differential cross sections for p0 photoproduction at forward angles were measured on two targets, carbon-12 and silicon-28, yielding G(p0 → gg) = 7.798 ± 0.056(stat.) ± 0.109(syst.) eV, where stat. denotes the statistical uncertainty and syst. the systematic uncertainty. We combined the results of this and an earlier experiment to generate a weighted average of G(p0 → gg) = 7.802 ± 0.052(stat.) ± 0.105(syst.) eV. Our final result has a total uncertainty of 1.50% and confirms the prediction based on the chiral anomaly in quantum chromodynamics.",

author = "{PrimEx-II Collaboration†} and I. Larin and Y. Zhang and A. Gasparian and L. Gan and R. Miskimen and M. Khandaker and D. Dale and S. Danagoulian and E. Pasyuk and H. Gao and A. Ahmidouch and P. Ambrozewicz and V. Baturin and V. Burkert and E. Clinton and A. Deur and A. Dolgolenko and D. Dutta and G. Fedotov and J. Feng and S. Gevorkyan and A. Glamazdin and L. Guo and E. Isupov and Ito, {M. M.} and F. Klein and S. Kowalski and A. Kubarovsky and V. Kubarovsky and D. Lawrence and H. Lu and L. Ma and V. Matveev and B. Morrison and A. Micherdzinska and I. Nakagawa and K. Park and R. Pedroni and W. Phelps and D. Protopopescu and D. Rimal and D. Romanov and C. Salgado and A. Shahinyan and D. Sober and S. Stepanyan and Tarasov, {V. V.} and S. Taylor and A. Vasiliev and M. Wood",

note = "Publisher Copyright: Copyright {\textcopyright} 2020 The Authors,",

year = "2020",

month = may,

day = "1",

doi = "10.1126/science.aay6641",

language = "English",

volume = "368",

pages = "506--509",

journal = "Science",

issn = "0036-8075",

publisher = "American Association for the Advancement of Science",

number = "6490",

}

TY - JOUR

T1 - Precision measurement of the neutral pion lifetime

AU - PrimEx-II Collaboration†

AU - Larin, I.

AU - Zhang, Y.

AU - Gasparian, A.

AU - Gan, L.

AU - Miskimen, R.

AU - Khandaker, M.

AU - Dale, D.

AU - Danagoulian, S.

AU - Pasyuk, E.

AU - Gao, H.

AU - Ahmidouch, A.

AU - Ambrozewicz, P.

AU - Baturin, V.

AU - Burkert, V.

AU - Clinton, E.

AU - Deur, A.

AU - Dolgolenko, A.

AU - Dutta, D.

AU - Fedotov, G.

AU - Feng, J.

AU - Gevorkyan, S.

AU - Glamazdin, A.

AU - Guo, L.

AU - Isupov, E.

AU - Ito, M. M.

AU - Klein, F.

AU - Kowalski, S.

AU - Kubarovsky, A.

AU - Kubarovsky, V.

AU - Lawrence, D.

AU - Lu, H.

AU - Ma, L.

AU - Matveev, V.

AU - Morrison, B.

AU - Micherdzinska, A.

AU - Nakagawa, I.

AU - Park, K.

AU - Pedroni, R.

AU - Phelps, W.

AU - Protopopescu, D.

AU - Rimal, D.

AU - Romanov, D.

AU - Salgado, C.

AU - Shahinyan, A.

AU - Sober, D.

AU - Stepanyan, S.

AU - Tarasov, V. V.

AU - Taylor, S.

AU - Vasiliev, A.

AU - Wood, M.

PY - 2020/5/1

Y1 - 2020/5/1

N2 - The explicit breaking of the axial symmetry by quantum fluctuations gives rise to the so-called axial anomaly. This phenomenon is solely responsible for the decay of the neutral pion p0 into two photons (gg), leading to its unusually short lifetime. We precisely measured the decay width G of the p0 → gg process. The differential cross sections for p0 photoproduction at forward angles were measured on two targets, carbon-12 and silicon-28, yielding G(p0 → gg) = 7.798 ± 0.056(stat.) ± 0.109(syst.) eV, where stat. denotes the statistical uncertainty and syst. the systematic uncertainty. We combined the results of this and an earlier experiment to generate a weighted average of G(p0 → gg) = 7.802 ± 0.052(stat.) ± 0.105(syst.) eV. Our final result has a total uncertainty of 1.50% and confirms the prediction based on the chiral anomaly in quantum chromodynamics.

AB - The explicit breaking of the axial symmetry by quantum fluctuations gives rise to the so-called axial anomaly. This phenomenon is solely responsible for the decay of the neutral pion p0 into two photons (gg), leading to its unusually short lifetime. We precisely measured the decay width G of the p0 → gg process. The differential cross sections for p0 photoproduction at forward angles were measured on two targets, carbon-12 and silicon-28, yielding G(p0 → gg) = 7.798 ± 0.056(stat.) ± 0.109(syst.) eV, where stat. denotes the statistical uncertainty and syst. the systematic uncertainty. We combined the results of this and an earlier experiment to generate a weighted average of G(p0 → gg) = 7.802 ± 0.052(stat.) ± 0.105(syst.) eV. Our final result has a total uncertainty of 1.50% and confirms the prediction based on the chiral anomaly in quantum chromodynamics.

UR - http://www.scopus.com/inward/record.url?scp=85085150062&partnerID=8YFLogxK

U2 - 10.1126/science.aay6641

DO - 10.1126/science.aay6641

M3 - Article

C2 - 32355026

AN - SCOPUS:85085150062

SN - 0036-8075

VL - 368

SP - 506

EP - 509

JO - Science

JF - Science

IS - 6490

ER -

Precision measurement of the neutral pion lifetime

Abstract

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