Kouji Narita Nagoya University, Japan CHORUS collaboration Study of charm production in neutrino interactions

Kouji Narita

Nagoya University, Japan

CHORUS collaboration

Study of charm production in neutrino interactions

CHORUS ExperimentCERN Hybrid Oscillation Research AapparatUS

• ντ appearance in pure νμ beam by CERN SPS

• Direct observation of τdecay in nuclear emulsion target

Flavor abundance <E>(GeV) 1.0 26.9 0.056 21.7 e 0.009 47.9e 0.002 35.3

Mean distance from source : 600m

Short Baseline Experiments

<L>/<E> ~ 2 x 10-2 km/GeV

0.1 prompt CC event expected in CHORUS

air core-magnet

calorimeter

muon spectrometer

target emulsion• Neutrino target• Active nuclear emulsion target

(770kg emulsion)• Scintillating fiber trackers

150 m resolution, =2mrad

• Hadrons Sign and momentum

• air-core magnet spectrometer

p/p = 0.035.p(GeV/c) 0.22

• lead&fibers “spaghetti” calorimeter

E/E=32%/E (hadrons)

E/E=14%/E (electrons)

hadr~60 mrad @10 GeV

• Muon ID, sign and momentum

• iron-core muon spectrometer

p/p~10%-15% (p<70 GeV/c)

CHORUS Detector

Beam exposure 1994~1997

Emulsion target

Scintillating fiber trackerEmulsion target (36 plates)

~4cm

Interface emulsion

Scintillating fiber tracker Interface emulsion Target emulsion⇒ ⇒

Target emulsion + S.F.T

Hardware video processors reconstruct tracks as frame-to-frame emulsion grain coincidence.

90 m plastic support

350 memulsion sheet

microscope stroke

tomographic 16 images

x50 magnification~3m focal depth

512x512 pixels120x150 m view

350 memulsion sheete

mu

lsio

n p

late

CCDcamera

CCDcamera

100 m

Automatic Emulsion Data Taking(pioneered by the Nagoya CHORUS group)

• Fiber Tracker Interface emulsion Target emulsion

• 100 m most upstream of each target plate are scaned

μ-

• ντ CC interaction τdecay vertex

• νμ CC interaction νinteraction vertex

No τ decay found … ~140,000 νμ CC interactions located !

Automatic Vertex Location

CHORUS Phase AnalysisⅡ About 140,000 νμ CC interactions have been located in emulsi

on ! (~60,000 NC interaction also located) Applying New Scanning Method (Netscan) All tracks in vertex region (1.5mm×1.5mm×6.3mm) will be

scanned. Track pick up speed in emulsion increase year by year

and current data storage speed is 15 minutes / vertex region

⇒ 　 Charm physics

　 Improvement on oscillation limit

NetScan

NetScan Data1Plate ~800 track segments

1.5m

m

1.5mm

Beam

NetScan Data8Plates

1.5m

m

1.5mm

8pla

tes

(6.3

mm

)

NetScan DataReconstruct tracks

1.5m

m

1.5mm

8pla

tes

(6.3

mm

)

NetScan Datareject penetrating tracks

1.5m

m

1.5mm

8pla

tes

(6.3

mm

)

NetScan Datareconstruct vertex

νint.vtx + D0 decay vtx

1.5m

m

1.5mm

8pla

tes

(6.3

mm

)

NetScan Data Position accuracy

μm

μm

X projection

Mean = 0.27 μm

Y projection

Mean = 0.29 μm

Plate

Plate

Position accuracy isChecked plate by plate

Average σ= 0.3μm

Prospect on Charm Physicsin CHORUS Phase Ⅱ

• About 10,000 charm associated event is expected in 200,000 νμCC (final sample)

• Charm decay vertex is reconstructed in very good accuracy ~1µm and can be confirmed by human eye

~ BG free analysis

⇒ Charm production in Neutrino interactions can be studied ! (so far,only E531 studied)

Analysis status ~100,000 CC ev.have been data taken (NetScan).

25,693 CC ev. analyzed for D0 production study

　 ⇒　 Phys.Lett B527:173-181,2002

49,292 CC ev. analyzed for Λc production study

D0 search Offline selection

　 Tracks confirmed by fiber tracker at downstream of emulsion　 Big impact parameter to 1ry vertex

r > (3.2 + ( 2σdz)2) µm

⇒ checking decay topology in emulsion by human eye

3 µm

Impact parameter (Data)

μ-

I.P

D0 production rate

　 226(2prong)+57(4prong) candidates with 9.2 BG 　　　 contamination from K0, Λ0 . ( E531: 57 D0 ) 　 ε(tot) 58.60.7 (2prong), 70.11.3 (4prong)

⇒σ(D0)/σcc=1.99 0.13(stat.) 0.17(syst.)%

(@<E>=27GeV ,P < 30GeV/c)

Phys.Lett B527:173-181,2002

Λc production study

• Charged charm : Λc, D, Ds

　　 Particle ID is impossible in CHORUS detector ……

⇒ Statistical analysis by flight length distribution

Mass(MeV/c2), cτ(µm )

Λc 2284.9, 62 D 1869.3, 315 Ds 1968.6, 149

Charged Charm Flight Length

D : Λc : Ds = 6 : 3 : 1

Λc

DDs

MC

(E531 result)

• Stop same plate as μ-

• Minimum distance between μ and other tracks > 5 µm• No fiber tracker confirmation required

⇒　High detection efficiency @ fl<400 µm

⇒ Check decay topology in emulsion by human eye　

Λc Search Offline SelectionMinimum distance (data)

5 µm

μ-

depth

depth(µm)

Λc Analysis status

• 49,292 ev. analyzed

• 79 (1prong) + 84 (3prong) candidate found.

( E531: 62 charged charms)

Flight length

MC

DATA

Λc Λc + D + Ds

Λc Analysisdaughter momentum measurement

by multiple scattering

1dx 2dx3dx 4dx 5dx 6dx L

X

L

pdxRMS scatt

3

16.13

0

222 σ6)()( errormeasuredscatt dxRMSdxRMS

every 1pl Pmax = 1.4 GeV/c



Measurable momentum is limited by measurement error

22 σ6)( dxRMS scat

μmcmX 0.3σ,8.20 Momentum resolution ~N

%80

Typically ~30 % in this analysis

Λc Analysis1prong decay events. Decay Pt distribution

05.0θsin kink

MC Λc→ 1prong (a.u)

GeV/c

Λc Analysis

BR(Λc →Σ± any) = 10±5 %

Σ+ cτ= 2.396 cm

Σ+ → 　 p + π0 ~ 50 %

Σ+ → 　 n + π+ ~ 50 %

Σ- cτ= 4.4434 cm

Σ- → 　 n + π- ~ 100 %

Λc →Σ± search

~100μm

Λc Σ ~ cm

p or π

Follow daughter tracks to downstream…

⇒ 10 candidate decay found !!

Run : 7894 Event : 7004

ΣΣ

Σ

Λc Λc

Λc

μ μ

μ

P or π P or π

P or π

F.L = 60μm

F.L = 1.1cm

Λc Analysis

Λc →Σ± candidate

Σ

09.0θsin kink

Θkink = 90 mrad

GeV/c5.09.1Pdaughter

Pt = 171±45 MeV/c

Λc production rate

• 79 (1prong) + 84 (3prong) found

• B.G (D,Ds) ~ 　 21±5

• ε(tot) 10.2 % (1prong), 30.2 % (3prong)

⇒σ(Λc )/σcc=1.39 0.18(stat.) 0.27(syst.)%

(@<E>=27GeV ,P < 30GeV/c)

prelim

inary

prelim

inary

Conclusions• CHORUS has ~ 10,000 Charm events in the emulsion targ

et (final statistics)

• New scanning method (NetScan) allow CHORUS to analyze Charm physics too.(not only Neutrino oscillation)

• D0 production rate have been studied using 25693 CC events. ⇒ Phys.Lett B527:173-181,2002

• Λc production rate analysis is in progress.NetScan method can measure the momentum by multiple scattering in the emulsion target. (1prong event decay Pt was measured , and consistent with MC )

Λc →Σ± candidates found . Good evidence of Λc⇒

⇒ will be published this year .

Documents

Kouji Narita Nagoya University, Japan CHORUS collaboration Study of charm production in neutrino interactions