what is the charmed analog of l (1405)?
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What is the charmed analog of L (1405)?. Kiyoshi Tanida (Seoul National University) Aug. 23, 2011 APFB2011, Seoul. Λ ( 1405 ). How is it in charmed sector?. Large mass difference of πΣ and DN → mixing should be small Both of Σπ resonance and ND bound state can be seen as separate peaks?. - PowerPoint PPT PresentationTRANSCRIPT
What is the charmed analog of (1405)?
Kiyoshi Tanida(Seoul National University)
Aug. 23, 2011APFB2011, Seoul
Λ ( 1405 )
How is it in charmed sector?
• Large mass difference of πΣ and DN→ mixing should be small
• Both of Σπ resonance and ND bound state can be seen as separate peaks?
strange charmMΛ 1116 2286
MΣ 1190 2455
MK ( M
D )495 1872
Σπ 1330 2595NK ( ND )
1435 2810
MΛ* 1405 ?
Σcπ resonance?
• Just on Σcπ threshold
• Still, the main decay mode is Σcπ
Is there DN bound state?
• JP are unknown, but they may be the bound state.Binding energies: 45MeV & 10MeV, respectively
• In the strangeness sector, attraction for I=0 channel is stronger than I=1.
Λc ( 2765 )
PRL86 ( 2001 ) 4479data from CLEO
B decay →Λc*→Λcππ( Σcπ 、 Σc*π included )
Width ~ 50 MeV
Λc ( 2765 )
Λc ( 2880 )
CLEO data
Λc ( 2880 ) Σcπ
BR=31±7%
Rough estimation in similar way:Λc ( 2765 ) Σcπ ~ 26%Λc ( 2765 ) Σc*π
~ 33%
via Σcπ
via Σc*π
Λc ( 2880 )Λc ( 2765 )
BELLE data
PRL98 (2007) 262001
This paper’s main subject is Λc(2880), but Λ(2765) was clearly seen, too.
Black: via Σcπ
Red : sideband background ( scaled )
Width : 73±5 MeV(Not used in PDG)
Σcπ partial decay rate?• Λc(2595):
– Full width=3.6+2.0-1.3 MeV– BR(Σcπ) > 70%. Partial width ~ 2.5 MeV
• Λc(2765):– Rough estimation: Γ(Σcπ) ~ 30MeV
• Dividing by phase space ・・・– Λc(2595): Q-value too small
Σc++π-: 1.7±0.6 MeV 、 Σc
+π0: 7.4±0.7 MeV
Q may be < 0 ( Threshold effect on spectrum )→ Unmeasured Σc
+π0 mode would be the main channel
– Squared matrix element may be twice larger for Λc(2595)
Q-value 1 MeV 3 MeV 5 MeV 172 MeV
Phase space ( relative )
1 1.8 2.3 37
Λc(2595) shape• CLEO data fit with threshold effect considered. (PRD67 074033)
M(Λc*) M(Λc) = 305.6±0.3 MeV ~3 MeV below c
Known things• Λ(1405) analog states– Σπ resonance certainly exists.– DN bound state: candidate exists.
• Comparing partial decay rates, it seems Λc(2595) has a stronger coupling to Σcπ
• Λc(2765) has too many unknowns, and the quality of data Λc(2595) is not enough.
What we want to know• Is Λc(2765) really the ND bound state and can be
considered as a Λ(1405) analog state?• Key measurements– Spin-parity: Many controversial predictions– Decay width, branching ratios
• Λc(2595) needs more data, too.– Need to consider threshold effect. Σc
+π0 mode would be a key.
• Need help from theory side– Threshold effect for Λc(2595)
– Discussion from partial widths– Determination of parity (which was the case for Λc(2880))
BELLE data
PRL98 (2007) 262001
This paper’s main subject is Λc(2880), but Λ(2765) was clearly seen, too.
Black: via Σcπ
Red : sideband background ( scaled )
Width : 73±5 MeV (Not used in PDG)
Possibility at BELLE• Decay widths seem feasible– Is Λc(2595)→Σc
+π0 possible?
• Determination of spin– angular distribution of
Λc→Σcπ
– Done for Λc(2880)
• Parity– Most difficult– Λc(2880) parity was
determined from BR ofΣcπ and Σc*π using model (heavy quarksymmetry)
Summary• Charmed analog of Λ(1405)– Σπ resonance : Λc(2595)
– DN bound state: Λc(2765)?
• We want to know the nature of Λc(2765)– Spin-parity (1/2?)– Decay width measurements would help, too.
• B-factory data contains huge statistics→ analysis seems feasible