a.m.
= 08:45 – 12:15 (30 minutes for coffee
10:15-10:45)
p.m.
= 13:45 - 17:15 (30 minutes for coffee 15:45-16:15)
(All
times are approximate. The time indicated for each talk includes five minutes
for questions. Speakers are requested to bring plenty of back-up material as
there is additional time set aside for
discussion at the end of each session.)
|
Tues. a.m.
July 3 |
Charm
physics and charm factories overview |
|
Wed. a.m.
July 4 |
B
physics and B factories overview
|
|
Fri. a.m.
July 6 |
Phi
Factories |
|
Fri. p.m.
July 6 |
Joint
with P5 charm factories/HALLD & QCD |
|
Sat. a.m.
July 7 |
PEP-n
& R |
|
Mon. a.m.
July 9 |
Focus
on e+e- charm factories |
|
Tues. a.m.
July 10 |
Joint
with P2/P5 charm factories and Flavor
physics |
|
Tues p.m.
July 10 |
no
session |
|
Wed. a.m.
July 11 |
Focus
on e+e- B factories/Giga-Z I |
|
Fri. a.m.
July 13 |
Focus
on e+e- B factories/Giga-Z II |
|
Sat. a.m.
July 14 |
Focus
on e+e- B factories/Giga-Z III |
|
Mon. a.m.
July 16 |
no session |
|
Tues.
a.m. July 17 |
Presentation of subgroup report and
discussion of outstanding questions on phi, charm factories, pep-N, giga-Z,
super high luminosity beauty factories. |
|
Wed. a.m.
July 18 |
Discussion
& conclusions, final subgroup report. |
a.m.
= 08:45 – 12:15 (30 minutes for coffee
10:15-10:45)
p.m.
= 13:45 - 17:15 (30 minutes for coffee 15:45-16:15)
(All
times are approximate)
|
10’ |
Introduction and Welcome |
Convenors |
slides |
|
30’ |
Theoretical
Review: Precision Charm Weak Decays
within and beyond the SM |
Gustavo
Burdman (Boston)
|
slides |
|
30’ |
Theoretical
Review: Opportunities
in QCD |
Paul
Mackenzie (FNAL) |
slides |
|
45’ |
Overview
of Current status and opportunities in charm weak decays and QCD and
opportunities at a charm factory
(experiment) |
Marina
Artuso (Syracuse)
|
slides |
|
60’ |
Working
session discussion and tabulation of the questions to be answered with charm |
E2 |
|
30’ |
Overview
of opportunities and physics reach at high luminosity B Factories |
Dave Hitlin(Caltech)
|
slides |
|
30’ |
Overview
of opportunities and physics reach at high luminosity B Factories |
Hitoshi Yamamoto(Hawaii)
|
slides |
|
30’ |
Theoretical
review of B physics with Giga-Z
|
Gudrun Hiller(SLAC)
|
slides |
|
30’ |
Physics
opportunities and reach with Giga-Z |
Klaus
Moenig (DESY)
|
slides |
|
60’ |
Working
session discussion and tabulation of the questions to be answered in B
physics. Can these questions be answered with existing and planned facilities
or is the proposed Super High Luminosity B Factory and/or Giga-Z needed? |
E2 |
|
30’ |
Status,
physics opportunities and physics reach of f factories |
Caterina
Bloise (Frascati) |
slides |
|
30’ |
Status,
physics opportunities and physics reach of
KAMI and CKM etc. |
Ron
Ray (FNAL)
|
slides |
|
90’ |
Working
session discussion and tabulation of the physics questions to be answered
with f factories. Can these questions be answered with existing and
planned facilities (fixed target) or are f factories
needed? |
E2 |
|
20’ |
CLEO-C
reach in the QCD spectrum |
Steve Dytman (Pittsburgh) |
slides |
|
|
Exotic QCD Effects |
Stan
Brodsky (SLAC) |
slides |
|
|
Structure Functions |
Stan
Brodsky (SLAC) |
slides |
|
30’ |
Theoretical
review of R (including impact of R measurements on Giga-Z electroweak) |
Bill
Marciano (BNL)
|
slides |
|
30’ |
The
pepN facility and detector |
Diego
Bettoni (Ferrara)
|
slides |
|
30’ |
Physics
with pep-N I: time like form factor
measurements |
Roberto
Calabrese (Ferrara)
|
slides |
|
30’ |
Physics
with pep-N II: R and hadron
spectroscopy at PEP-N |
Mark
Mandelkern (UC
Irvine) |
slides |
|
15’ |
CLEO-c
R measurement |
Lawrence
Gibbons (Cornell)
|
slides |
|
45’ |
Working
session discussion and tabulation of the physics questions to be answered at
PEP-N . Can all questions be answered by PEP-N or will oustanding issues
remain? |
E2 |
|
30’ |
Overview
of BESII/BESIII/BEPC |
Zhengguo
Zhao (Michigan) |
slides |
|
20’ |
Overview
of CESR-C/CLEO-C |
Lawrence
Gibbons (Cornell) |
slides |
|
20’ |
CLEO-C
& BES reach in Precision Charm Weak Decay physics within the Standard Model |
Dave
Cassel (Cornell) |
slides |
|
20’ |
CLEO-C
reach in Physics Beyond the Standard Model |
Marina
Artuso (Syracuse) |
slides |
|
20’ |
Y¢ spectroscopy & CLEO-C |
Stephen
Pordes (FNAL)
|
slides |
|
20’ |
B
factory reach in Precision Charm Weak Decay physics within and beyond SM |
Xinchou
Lou (UTD)
|
slides |
|
20’ |
FOCUS
reach in form factors Vcd/Vcs and beyond SM |
Will
Johns (Vanderbilt)
|
slides |
|
20’ |
BTeV/LHC-b
etc. reach in Charm Weak decay physics within and beyond the SM |
Dan
Kaplan (IIT) |
slides |
|
|
Experimental Aspects of Tau Physics at CLEO-c
|
Yuri
Maravin (SMU) |
slides |
|
10’ |
Working
session discussion and update table of questions with tentative answers |
E2 |
Tuesday July 10 8:45 a.m. Joint with P2/P5 Flavor physics and Charm Factories
|
30’ |
CLEO-c Standard Model flavor physics |
Ian Shipsey (Purdue) |
slides |
|
20’ |
Unitarity
angles & CP Asymmetries (theory) |
Yosuhiro
Okada (KEK) |
slides |
|
20’ |
Unitarity
angles & CP Asymmetries Super
High Luminosity B Factory experimental reach |
Abi Soffer (Colorado State) |
slides |
|
20’ |
Unitarity
angles & CP Asymmetries existing and planned facilities (BTeV/LHC-b, CDF/D0,
ATLAS/CMS) |
Sheldon Stone (Syracuse) |
slides |
|
30’ |
Precision
Vub (theory) |
Mike
Luke (Toronto) |
slides |
|
20’ |
Precision
Vub Super High Luminosity B Factory experimental reach |
Jik Lee (Purdue) |
slides |
|
70’ |
Working
group discussion refining the luminosity goal, updating the table |
E2 |
|
|
E2 Mid-Snowmass Report |
Ian Shipsey (Purdue) |
slides |
|
20’ |
Rare
B Decays (theory) |
Gustavo Burdman (Boston) |
slides |
|
20’ |
Rare
B Decays Super High Luminosity B Factory experimental reach |
Nobu
Katayama (KEK) |
slides |
|
20’ |
Rare
B Decays existing and planned facilities (BTeV/LHC-b,
CDF/D0, ATLAS/CMS ) |
Rob
Kutschke (FNAL) |
slides |
|
20’ |
Y(5S)
Super High Luminosity B Factory experimental reach |
Sibylle
Petrak (SLAC) |
slides |
|
20’ |
Bs
physics with existing and planned facilities (BTeV/LHC-b, CDF/D0,
ATLAS/CMS) |
Penelope
Kasper (FNAL) |
slides |
|
|
New Physics with Rare B Meson Decays |
Andrei Gritsan (LBNL) |
slides |
|
50’ |
Working
group discussion refining the luminosity goal updating the table. |
E2 |
|
30’ |
Plans
for KEKB upgrades |
Yukiyoshi
Ohnishi (KEK)
|
slides |
|
30’ |
An e+e- Collider in a VLHC tunnel |
Tanaji Sen
(FNAL) |
slides |
|
60’ |
Detectors
for Super High Luminosity B Factories |
Gerald
Eigen (Bergen) |
slides |
|
60’ |
Working
group discussion on e+e- B factories and Giga-Z as a B factory |
E2 |
|
No E2 meeting. Convenor's writing meeting only. |
|
30’ |
Overview of BTeV |
Penelope Kasper
(FNAL) |
slides | More slides |
|
45’ |
Designs
for Super High Luminosity B Factory at SLAC |
Franz-Josef Decker
(SLAC) |
slides | More slides |
|
45’ |
Report from Super B Factory E2 subgroup
(Overview) |
David Hitlin
(Caltech) |
slides | |
|
20’ |
Report from Super B Factory E2 subgroup
(CP Asymmetry) |
Aaron Roodman
(SLAC) |
slides | More slides |
|
20’ |
Report from Super B Factory E2 subgroup
(CP Violation Reach) |
Abi Soffer
(Colorado State) |
slides | |
|
20’ |
Report from Super B Factory E2 subgroup
(Rare B decays and New Physics) |
Peter Kim
(SLAC) |
slides | More slides |
|
20’ |
Report from Super B Factory E2 subgroup
(Machine Backgrounds Issues For Calorimetry) |
Steven Robertson
(SLAC) |
slides |
|
Working
sessions: discussion on phi, charm factories, pep-N, giga-Z,
super high luminosity beauty factories as needed. Discuss conclusions. |
|
Final
subgroup reports |
|
Working
session review summary and statement |
|
|
E2 Final Report |
Ian Shipsey (Purdue) |
slides |
Definitions
for charm factory sessions:
(within
SM = decay constants, form
factors, test of HQET and lattice, Vcs,
Vcd absolute branching ratios, tau
decay and the broader impact of these measurements on heavy flavor physics in
particular, and particle physics in general)
(Beyond
SM = mixing, CPV, rare charm decays
exotic tau decays.)
(The
QCD Spectrum = spectroscopy, glueballs,
hybrids,
understanding
the presumably non-exotic hadronic mass spectrum from 1.5-2.5 GeV )