Steve Vigdor & Hugh Montgomery EIC Collaboration Meeting, 1/11/2010. Summary of Nov. 2-3, 2009 EICAC Meeting. EIC Advisory Committee Joachim Bartels (Universitait Hamburg, DESY) Allen Caldwell (Max-Planck Institute for Physics, Munich) Albert De Roeck (CERN) Rod Gerig (ANL) - PowerPoint PPT Presentation
PowerPoint Presentation
Summary of Nov. 2-3, 2009 EICAC Meeting
Steve Vigdor & Hugh Montgomery
EIC Collaboration Meeting, 1/11/2010
EIC Advisory Committee
Joachim Bartels (Universitait Hamburg, DESY)
Allen Caldwell (Max-Planck Institute for Physics, Munich)
Albert De Roeck (CERN)
Rod Gerig (ANL)
Walter Henning (ANL, Chair)
David Hertzog (University of Illinois)
Xiangdong Ji (University of Maryland)
Robert Klanner (DESY)
Al Mueller (University of Columbia)
Katsunobu Oide (KEK)
Naohito Saito (JPARC)
Uli Wienands (SLAC)
In the light of these considerations, we request that the EICAC
periodically review progress, and provide feedback and advice, on
the development of the following:
A compelling science program suited to justify a new facility of
EICs project scope;
A robust, targeted plan for R&D on critical accelerator and
detector technology;
Planning milestones, management proposals and design
reports;
Credible machine and detector cost estimates, including possible
staging options;
An EIC international user community of sufficient size, skill,
energy and commitment;
Plans for serious and mutually beneficial collaboration of BNL
and JLab and the interested community on aspects of the EIC
project.
EICAC General Charge
Special emphasis on advice informing our path toward the next
U.S. Nuclear Physics Long Range Plan (~2012-13?)
EICAC Advice from Feb. 09
EICAC requested next meeting on Fall 09 schedule, for 2 days to
allow deeper discussion, and with following major deliverables:
Coherent R&D plan, timeline, milestones & resource
needs
Initial cost-performance-science reach matrix
Short list of golden measure-ments & what will be
learned
Implications of golden expts for detector requirements +
R&D
Other EICAC recommendations:
Further develop the schedule including approximate
resource-loading, to provide a timeline for major decisions
(including, if at all possible, site decision), technical
developments, and (staged) realization
In particular, strive for a timeline (under reasonable
assumptions) that provides for data taking before 2020
Recommendations regarding viable, coherent R&D program and
funding level for next ~5 years to inform ONP Funding Opportunity
Announcement for FY10
Advice re the basic EIC conundrum -- how to steer a path toward
a compelling facility proposal, through the following competing
demands:
JLab and BNL agree that a staged facility approach is most
likely to succeed
A 1st stage machine will already be expensive (> several
$100M) and is unlikely to address all the science goals
JLab- and BNL-centric user communities have related, but
distinct, science priorities distinct facility designs
1st stage must already have compelling science deliverables
Both designs require challenging, multi-year R&D programs to
demonstrate technology, luminosity reach
Convergence on a unified, convincing plan is essential in time
for LRP
Special Issues for Nov. 2-3 EICAC Meeting
Overview of EICAC (Current) Sentiments
Science case: Interesting and well on its way by now; key
objectives defined; needs quantification in terms of required key
parameters, both with respect to detectors and machine
performance.
Detectors: For now, focus on broad parameterized studies and
(fast) simulations, to identify: desired parameters, most stringent
requirements, needed R&D, possible need for two interaction
regions. Develop detailed detector design(s) later; some limited
initial R&D (for seed monies) identified by EICAC.
Accelerator: Good progress, but large number of specific
technical concerns, for both concepts; key parameters and costs
need to be credibly quantified; BNL design more advanced; JLab
concept lacks yet a fundamental machine design; luminosity vs.
x-ranges uncertain or not yet defined; initial list of key R&D
identified by EICAC.
EICAC Composition: additional accelerator expertise needed to
broadly cover range of issues.
Quotes from EICAC Report on Science Case
Compared toFebruary 2009, EICAC saw an impressive progress in
identifying and formulating the scientific goals of an electron-ion
collider.
Presentations for outside use should be rationalized using
consistent sets of assumptions The different experimental groups
should sit together with accelerator groups and agree on sets of
parameters for simulations.
The [Fall 2010] INT Program should be used to articulate the
theoretical motivation, but also to compare those goals with
reality by examining the sensitivities of simulated experiments. An
outcome should be the science / machine matrix discussed earlier.
At the conclusion of the INT program, we can anticipate some
follow-up event(s) in 2011 where the joint community agrees on the
theme of a final White Paper.
The EIC Community appears to be made of two sub-groups, roughly
associated with the BNL or JLab concepts for the machineit is our
opinion that there remains time for vigorous debate about
scientific options and priorities; however, for full consideration
at the next LRP, one coherent, joint-QCD-community request should
be made.
Quotes from EICAC Report on Facility Design & Strategy
The EICAC is impressed with theworkon accelerator designs since
the last meeting the two laboratories are at very different levels
of design maturity.
It is the growing view of several members of EICAC that as soon
as possible a down select should be madethere is much R&D that
needs to be doneaddressing all the challenges of both [designs] is
expensive and perhaps unwarranted. The highest priority on the
facility side is to develop the JLAB design to a stage similar to
where the BNL design is at present.
EICAC would like to see high risk systems identified which are
needed to achieve these [energy and luminosity] parameters, with
the resulting performance that would be realized if the high risk
system cannot be met.
In terms of strategythe EICAC feels that the proponents might
consider aiming for the EIC facility from the beginning, with a
medium-range performance scope and future upgrade opportunities.
[See next slide also.]
It maybe wise to consider the possibility of more than one
interaction region to satisfy these different [science and
detector] requirements. This would also provide a natural way for
different physics communities to group themselves.
Quotes from EICAC Report on Path to Down Select
two [design] options to be explored in the near future: one has
to be favored, the other one disfavored [with] serious
consequences. Alternative-lyfind a compromise design which serves
both interests (and laboratories).
[At Fall 2020 INT Workshop]: i) For each of the two directions,
it would be very useful to prepare a concrete list of the requested
measurements (including the scientific motivation, kinematic
region, required accuracy etc.); and/or ii) each of the two groups
should investigate to what extent their scientific goals could be
reached by the other machine (i.e. 'proton imaging' etc by the BNL
design, 'saturation' etc by the JLab version).
it would be useful to define a few sets of parameters (energy,
luminosity, polarization) based on the expectations from each
machine for simulation studies. Available space at the IR should
also be defined. These can then be put together with detector
designs to understand the physics capabilities for the signature
(and other) measurements. These results should then be put together
with expected cost, time scale for the accelerator development, and
possibilities for future upgrades to higher energies and luminosity
in determining which accelerator option is to be backed by the
community.
Quotes from EICAC Report on Accelerator R&D Priorities
Highest priority:
Design of JLab EIC
High current (e.g. 50 mA) polarized electron gun
Demonstration of high energy high current recirculation ERL
Beam-Beam simulations for EIC
Polarized 3He production and acceleration
Coherent electron cooling
High priority, but could wait until decision made:
Compact loop magnets
Electron cooling for JLab concepts
Traveling focus scheme (it is not clear what the loss in
performance would be if it doesnt work; it is not a show stopper if
it doesnt)
Development of eRHIC-type SRF cavities
Medium Priority:
Crab cavities
ERL technology development at JLAB
Quotes from EICAC Report on Detector Development
The EICAC feels that there is no need at this point to carry out
detailed GEANT simulations, but rather to study responses based on
parameterizations. The trade-off between the resolutions
andacceptances of the detectors on the one hand, and
luminosity,polarization and beam energies on the other hand for the
physics can be understood with these kinds of studies.
In a prioritized way, R&D suggested for the near term should
begin to address the following areas:
Low-mass vertex-tracker/tracker, and integration of a TRD
detector in the tracker
particle identification at mid-rapidity for particles with
momenta up to 4 GeV, e.g., using DIRC technology
low cost photon detection, e.g., SiPMs
ion polarimeters
The EICAC considers it important that the detector R&D
efforts are conducted jointly for MeRHIC and MEIC. Contacts with
other communities like LHeC are also strongly encouraged.
Quotes from EICAC Report on Community/Lab Management
This community is commended for its vision and passion in terms
of making the case for the next-generation QCD machine that will
enlighten our understanding of strongly interacting matter.
General meetings, commonly organized by the whole community are
strongly encouraged as before. Meetings which are organized
explicitly for one community may in the long run not lead to the
necessary united position of the whole community in support of the
future project.
The committee was pleased to learn that there is an effort in
both BNL and JLAB to secure resources and a working budget for
these studies. At a future review meeting the committee would want
to assess whether these resources are sufficient to achieve the
goals by 2012.
To progress further, some assurance from lab managements would
be useful, stating that, which ever facility scheme will be chosen
in the end of the evaluation process, both laboratories are
committed to making it a success together.
Some BNL Reactions to EICAC Report
Agree that science case is well on its way, but still a ways to
go to make it compelling to a broader audience.
The scope of some science goals can clearly only be partially
addressed with a 1st stage facility. But it is important to
identify clear science milestones achievable with the 1st stage, as
well as added scope with possible future upgrades.
Our accelerator R&D priorities are consistent with EICACs.
Getting headstart on some developments with LDRD funding, but hope
to compete for DOE funds starting in FY10.
Primary MeRHIC design costed to date has one IR. Full eRHIC
design and alternative MeRHIC designs under consideration
accommodate multiple IRs -- some can have higher luminosity at
expense of forward detector acceptance -- but multiple detectors
will clearly increase cost scope..
Timeline to develop both BNL and JLab designs to comparable
levels, down-select, demonstrate critical R&D
proofs-of-principle & converge on unified science program, in
time for LRP is challenging!
1
View of the Projects (Monts Paraphrase)The projects will benefit
from being
articulated in such a way that:
the initial step is seen to be complete
and provides a fully developed science return
the potential scope of the facility, with,
for example, higher energy or higher
luminosity, can be seen to be a natural upgrade
1
Jefferson Lab (Montgomery Comments)
The science case is coming together, the committee seemed to see
good progress. I
feel there is still a good deal to be done.
We need to make sure we are not missing elements
(indidualworkshops), and
that what we have is coherent (INT??).
There is still the desire to see the major experimental thrusts,
the cost-benefit
analyses, the golden experiments
It is clearly important that we try to produce a complete
Jefferson Lab machine
design over the next 9 months.
This will be our main thrust for R&D supportIt is clear that
the committee reacts well/is pleased when it can see what is
offered
for a given investment.
Example is coherent electron cooling in the BNL designIt is also
clear that the converse is true when it cannot see what a given
aspect
brings,
Examples are the various cooling schemes in the Jefferson Lab
design I can buy the proposed way to articulate the project (base +
upgrade path) Our JSA Science Council advised us to continue to
collaborate with BNL on this
work, but to make sure we also advance our own case.
Good progress has been made; we are not there yet.
