asymmetriesin - cds.cern.chcds.cern.ch/record/2710551/files/Poster-2020-1026.pdf · or in the...

Updated measurement of decay-time-dependent CP asymmetries in D 0 → K + K - D 0 → K + K - D 0 → K + K - and D 0 → π + π - D 0 → π + π - D 0 → π + π - decays Daniel Unverzagt*, Physikalisches Institut, Heidelberg University *on behalf of the LHCb Collaboration 1. Motivation • CP violation in charm decays very small • Significant enhancements due to new physics possible • Charm hadrons: unique opportunity to measure CPV in systems containing up- type quark • Discovery of direct CPV in charm decays – (∼ 10 -3 )[1] • No evidence of indirect CPV – Expected scale (10 -4 - 10 -5 )[2, 3] • A Γ highest precision probe of CPV in charm mixing A Γ (f )= ˆ τ ( ¯ D 0 → f ) - ˆ τ (D 0 → f ) ˆ τ ( ¯ D 0 → f )+ˆ τ (D 0 → f ) 2. How to measure A Γ ? • Identifying flavor of the D-meson: Semileptonic B → Dμ decays are used to tag the flavor of the D-meson. • Estimating time-dependent asymmetry: A RAW CP (t)= N ( ¯ D 0 (t) → f CP ) - N (D 0 (t) → f CP ) N ( ¯ D 0 (t) → f CP )+ N (D 0 (t) → f CP ) = A CP (t)+ time-independent z }| { A μ + A prod + O (A 3 ) A CP (t)= Γ( ¯ D 0 (t) → f CP ) - Γ(D 0 (t) → f CP ) Γ( ¯ D 0 (t) → f CP ) + Γ(D 0 (t) → f CP ) ≈ A dir CP - t τ A Γ 3. Analysis strategy 1. Select a clean B → ( ) D 0 μX sample 2. Split data in approximate equi-populated decay-time bins 3. Simultaneous fit to the D 0 and ¯ D 0 mass distribution to determine the asymmetry between signal yields 4. Fit the yield asymmetry vs decay-time • Validate analysis strategy on D 0 → Kπ (no CPV, A Γ =0) 5. Mass Fit KK : ∼ 4.5 × 10 5 events per decay-time bin ππ : ∼ 1.5 × 10 5 events per decay-time bin ¯ 6. Systematics Mistag: probability to wrongly associate unrelated muons with the D 0 candidates lies between 1% and 3%. Generate PE with realistic mistag fraction and assess impact on fit parameters. Systematics are studied by large samples of pseudoexperiments (PE). Several crosschecks performed No additional systematics were observed 4. Selection Around 9 × 10 6 KK , 3 × 10 6 ππ and 76 × 10 6 Kπ (control channel) events after selection. 7. Final result This analysis[4]: References [1] LHCb Collaboration. Observation of CP violation in charm decays, Phys. Rev. Lett. 122, 211803 [2] M. Bobrowski, A. Lenz, J. Riedl, and J. Rohrwild. How large can the SM contribution to CP violation in D 0 - ¯ D 0 mixing be?, J. High Energ. Phys. 2010, 9 (2010) [3] Grossman, Yuval and Kagan, Alexander L. and Nir, Yosef. New physics and CP violation in singly Cabibbo suppressed D decays, Phys. Rev. D 75, (2007) 036008. [4] LHCb Collaboration. Updated measurement of decay- time-dependent CP asymmetries in D 0 → K + K - and D 0 → π + π - decays, Phys. Rev. D 101 (2020) no.1, 012005 Alternative signal and background models are tested. Flavor identified by muon charge

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Transcript of asymmetriesin - cds.cern.chcds.cern.ch/record/2710551/files/Poster-2020-1026.pdf · or in the...

Page 1: asymmetriesin - cds.cern.chcds.cern.ch/record/2710551/files/Poster-2020-1026.pdf · or in the interference between mixing and decay in neutral D-decays. References [1]LHCb Collaboration.

Updated measurement of decay-time-dependent CPasymmetries inD0 → K+K−D0 → K+K−D0 → K+K− andD0 → π+π−D0 → π+π−D0 → π+π− decays

Daniel Unverzagt*, Physikalisches Institut, Heidelberg University*on behalf of the LHCb Collaboration

1. Motivation• CP violation in charm decays very small

• Significant enhancements due to newphysics possible

• Charm hadrons: unique opportunity tomeasure CPV in systems containing up-type quark

• Discovery of direct CPV in charm decays

– (∼ 10−3)[1]

• No evidence of indirect CPV

– Expected scale (10−4 − 10−5)[2, 3]

• AΓ highest precision probe of CPV incharm mixing

AΓ(f) =τ̂(D̄0 → f)− τ̂(D0 → f)

τ̂(D̄0 → f) + τ̂(D0 → f)

2. How to measure AΓ?• Identifying flavor of the D-meson:

Semileptonic B → Dµ decaysare used to tag the flavor of theD-meson.

• Estimating time-dependent asymmetry:

ARAWCP (t) =N(D̄0(t)→ fCP )−N(D0(t)→ fCP )

N(D̄0(t)→ fCP ) +N(D0(t)→ fCP )= ACP (t) +

time−independent︷︸︸︷Aµ +Aprod +O(A3)

ACP (t) =Γ(D̄0(t)→ fCP )− Γ(D0(t)→ fCP )

Γ(D̄0(t)→ fCP ) + Γ(D0(t)→ fCP )≈ AdirCP −

τAΓ

3. Analysis strategy1. Select a clean B →

( )

D0µX sample

2. Split data in approximate equi-populateddecay-time bins

3. Simultaneous fit to the D0 and D̄0 massdistribution to determine the asymmetrybetween signal yields

4. Fit the yield asymmetry vs decay-time

• Validate analysis strategy onD0 → Kπ (no CPV, AΓ = 0)

5. Mass Fit

KK: ∼ 4.5× 105 events perdecay-time bin

ππ: ∼ 1.5× 105 events perdecay-time bin

1. Create D0 and D̄0 sub-samples by muon tag

2. Divide data in 20 decay-time bins

3. Estimate asymmetry bysimultaneous fit toD0 andD̄0 mass spectrum in eachdecay-time bin

6. SystematicsMistag: probability to wrongly associateunrelated muons with the D0 candidates liesbetween 1% and 3%.

Generate PE with realistic mistag fraction andassess impact on fit parameters.

Systematics are studied by large samples ofpseudoexperiments (PE).

Severalcrosschecksperformed

hello No additionalsystematics

were observed

4. Selection

Around 9 × 106 KK, 3 × 106 ππ and 76 × 106

Kπ (control channel) events after selection.

7. Final resultThis analysis[4]:

AΓ(K+K−) = (−4.3± 3.6± 0.5)× 10−4

AΓ(π+π−) = (2.2± 7.0± 0.8)× 10−4

Combination with previous LHCbmeasurements:

AΓ(K+K−) = (−4.4± 2.3± 0.6)× 10−4

AΓ(π+π−) = (2.5± 4.3± 0.7)× 10−4

No indication of CP violation in mixingor in the interference between mixing anddecay in neutral D-decays.

References[1] LHCb Collaboration. Observation of CP violation in

charm decays, Phys. Rev. Lett. 122, 211803[2] M. Bobrowski, A. Lenz, J. Riedl, and J. Rohrwild. How

large can the SM contribution to CP violation in D0 − D̄0

mixing be?, J. High Energ. Phys. 2010, 9 (2010)[3] Grossman, Yuval and Kagan, Alexander L. and Nir,

Yosef. New physics and CP violation in singly Cabibbosuppressed D decays, Phys. Rev. D 75, (2007) 036008.

[4] LHCb Collaboration. Updated measurement of decay-time-dependent CP asymmetries in D0 → K+K− andD0 → π+π− decays, Phys. Rev. D 101 (2020) no.1,012005

Alternative signal and background models are tested.

Flavor identifiedby muon charge

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