Pinning down the J PC values of the X(3872) K. Miyabayashi for S.K. Choi & S.L. Olsen Feb, 2005 Belle Analysis & Software Meeting
J PC possibilities for J ≤ exotic violates parity 0 -+ ( c ” ) 0 ++ DD allowed ( c0 ’ ) 0 +- exotic DD allowed DD allowed ( (3S)) 1 -+ exotic DD allowed 1 ++ ( c1 ’ ) 1 +- (h c ’ ) 2- -(2)2- -(2) ( c2 ) 2 ++ DD allowed c2 ’ ) 2 +- exotic DD allowed
P-viol’n & DD -allowed J PC s unlikely (reduce type size of these entries by x1/2) exotic violates parity 0 -+ ( c ” ) 0 ++ DD allowed ( c0 ’ ) 0 +- exotic DD allowed DD allowed ( (3S)) 1 -+ exotic DD allowed 1 ++ ( c1 ’ ) 1 +- (h c ’ ) 2- -(2)2- -(2) ( c2 ) 2 ++ DD allowed c2 ’ ) 2 +- exotic DD allowed
Use e7 – e37 data (include B K S J/ ) Signal (47 ev) Sidebands (114/10 = 11.4 ev)
Follow advice from Sherlock Holmes: Eliminate all other factors, & the one that remains must be the truth.* *The sign of four
Areas of investigation Angular correlations Search for radiative decays Fits to the M( ) distribution
Angular Correlations
Strategy: for each J PC, find a distrib 0 if we see any events there, we can rule it out example 1 -- : sin 2 K K compute angles in J/ restframe D.V. Bugg hep-ph/ v2 ’ 2 /dof = 8.9/9 Use ’ to check accept. ’ is 1 --
|cos Kl | for X(3872) events X(3872) is not 1 -- ! expect 2~3evts/bin background scaled from sidebands fit with sin 2 Kl + bkgd 2 /dof = 60.3/9 see 8 evts/bin
1 +- and 2 -- use J/ helicity angle J/ K X J/ J/ |cos J/ | For the ’ J/ , this should be ~flat
1 +- and 2 -- can rule out 1 +- (Cl=10 -4 %) 2 -- is unlikely (CL=0.16%) |cos J/ | 1 +- : sin 2 J/ 2 -- : sin 2 J/ cos 2 J/ 2 /dof=36/9 2 /dof=27/9 |cos J/ |
0 -+ Rosner (PRD ) 0 -+ : sin 2 sin 2 safe to rule out 0 -+ 2 /dof=31/9 |cos | |cos | 2 /dof=61/9
0 ++ Rosner (PRD ) again ll In the limit where X(3872), , & J/ rest frames coincide: d /dcos l sin 2 l |cos l | rule out 0 ++ 2 /dof = 59/9
1 ++ ll 1 ++ : sin 2 l sin 2 K 1 ++ looks okay! compute angles in X(3872) restframe |cos l | 2 /dof = 10.4/9 |cos | 2 /dof = 8.1/9 Rosner (PRD )
1 ++ again compute in rest frame compute in J rest frame 2 /dof = 8.9/9 |cos l ||cos |
Reduce type size for J PC values that fail angle tests exotic violates parity 0 -+ ( c ” ) 0 ++ DD allowed ( c0 ’ ) 0 +- exotic DD allowed DD allowed ( (3S)) 1 -+ exotic DD allowed 1 ++ ( c1 ’ ) 1 +- (h c ’ ) ( 2 ) ( c2 ) 2 ++ DD allowed c2 ’ ) 2 +- exotic DD allowed
Observation of X(3872) J/
Select B K J/ (include both K ± & K s ) Tight J/ cuts K ± id>0.5 / Belle-standard “good Ks” E >40 MeV 0 veto ( 2 >4.0) K* veto (M(K )>1.0 GeV) R 2 <0.4; |cos B | < 0.8 |M bc – 5.28|< GeV (2 ) | E|<0.034 GeV (2 ) E7 E37
M( J/ ) X signal Region ± 32 MeV M( J/ ) B K c1 ; c1 J/ X(3872)?
N ev ( c1 ) = 653 ± 26 |M( J/ ) – m c1 | < 25 MeV ( ± 2.4 ) Expand c1 region Fit to determine M( J/ ) =10.7 MeV Use these fits to get means & sigmas for M bc and E
M( J/ ) in X(3872) region No signif. peaking bkgnd scaled fit: 1.0 ± 2.1 evts Signif = 2ln L (1.0) -2ln L (13.4) = 5.1 ± 32 MeV Use this fit to get Efact for ARGUS sideband N ev (X 3872 ) = 13.4 ± 4.4 X(3872)
Br(X J/ ) determination Br(X J/ ) Br(X J/ ) = N ev (X J/ ) N ev ( c1 J/ ) N ev (X J/ ) N ev ( ’ J/ ) Br(B K c1 )Br( c1 J/ ) Br(B K ’ ) Br( ’ J/ ) ( c1 J/ ) ( ’ J/ ) ( ’ J/ ) (X J/ ) data: 0.30 ± 0.11 from PDG 1.02 ± 0.22 ~1.02± 0.10 = 0.30 ± 0.11 ± 0.06 (Previous 90% CL upper limit was <0.4)
Evidence for C=+1 is becoming overwhelming B J/ only allowed for C=+1 same for B ” ”J/ (reported earlier) M( ) for X J/ looks like a X J/ ( -J/ in an S-wave) 2 /dof=35/39 X J/ ( -J/ in an S-wave) 2 /dof=63/39
C = -1 is ruled out reduce typesize of C=-1 entries exotic violates parity 0 -+ ( c ” ) 0 ++ DD allowed ( c0 ’ ) 0 +- exotic DD allowed DD allowed ( (3S)) 1 -+ exotic DD allowed 1 ++ ( c1 ’ ) 1 +- (h c ’ ) ( 2 ) ( c2 ) 2 ++ DD allowed c2 ’ ) 2 +- exotic DD allowed
Remaining states 1 ++ & J/ in an S-wave 2 -+ “ “ a P-wave
Fits to the M( ) Distribution X J/ in P-wave has a q* 3 centrifugal barrier X J/ q*
M( ) can distinguish -J/ S- & P-waves S-wave: 2 / dof = 35/39 P-wave: 2 / dof = 80/39 q* roll-off q* 3 roll-off (CL=0.014%) (CL= 67%) Shape of M( ) distribution near the kinematic limit favors S-wave
-J/ in a P-wave is unlikely reduce type-size of all J -+ entries exotic violates parity 0 -+ ( c ” ) 0 ++ DD allowed ( c0 ’ ) 0 +- exotic DD allowed DD allowed ( (3S)) 1 -+ exotic DD allowed 1 ++ ( c1 ’ ) 1 +- (h c ’ ) ( 2 ) ( c2 ) 2 ++ DD allowed c2 ’ ) 2 +- exotic DD allowed
“The one which remains:” 1 ++ (passes all the tests) |cos l | 2 /dof = 10.4/9 |cos | 2 /dof = 8.1/9 M( ) 2 /dof = 35/39 & consistent with observations of: X J/ X ” ” J/
Could the X(3872) be the c1 ’ ? (2 3 P 1 J/ ) ~ 11 keV (2 3 P 1 J/ ) ~ ( ’ J/ ) ~ 0 (0.3 keV) ~30 isospin violating Barnes, Godfrey hep-ph/ Rough expectation for pure charmonium: we measure 0.3; two orders-of-magnitude smaller; c1 ’ component of the X(3872) must be small Mass is way off: 3872 vs 3929 3990 MeV Br(X J/ ) = 0.3 is much too small theory range
Summary We learn a lot from angular distribs with ~50 evts –Rule out 0 -+, 0 ++, 1 -- and 1 +- ; 2 – is unlikely (CL~0.16%) B J/ (plus “ ”J/ M( )) rules out all C=-1 M( ) favors S-wave -J/ (P-wave CL=0.014%) –Rules out 2 -+, 1 -+ & 0 -+ Only 1 ++ passes all tests –angular distributions & M( ) fitted well – c1 ’ assignment unlikely (Br( J/ ) is too small) –DD* molecule models favor 1 ++ Tornqvist hep-ph/ Swanson PLB588, 189(2004)
plan Generate MC for each J PC –compare MC distributions with data Search for X ’ (theory for c1 ’: ~ 6x J/ ) PRD on X(3872) properties? –angular studies –other decay modes X J/ include e39 data? X DD, DD* ??, separate paper? X 3 J/ include e39 data? – M( ) fits
Back-up slides
Q: why not do 2-d fits for angular distributions? A: We are not measuring parameters, we doing hypothesis testing, & so, we need a binned 2. With < 50 events, 2-dim binning with reasonable bin sizes will have ≤1event/bin.
Q: Is the M( J/ ) look-back plot consistent with a 10.5 evt X J/ signal? A: YES (yield fixed at value from M bc - E fit; scaled from c1 J/ peak) 13.4 evt Signal