Dear CALICE SpB members,
I have received an acceptance notice for the abstract “Scalability of technologies for highly granular calorimeters” as a parallel talk in the detector R&D session at ICHEP. I have no information yet on the other abstract, but I expect that a likely outcome will be that we will have to merge the two talks. I will give the conveners a few more days, and then will follow up concerning the status of our second submission.
Since the early registration deadline for ICHEP is on April 30, we should move ahead with the selection of a speaker. For ICHEP (and similar conferences) this process requires a bit of care, since we try to achieve a balance over groups and projects. Still, it probably does make sense to also send a call for nominations to the collaboration, to have a pool of people that are in principle available to give the talk. After all, Seoul is a long trip for many in CALICE.
For reference, here is a (hopefully complete) recollection of recent speakers and affiliations for CALICE talks at ICHEP and EPS-HEP, the two conferences in the relevant category:
- EPS-HEP 2017: Gerald (Lyon, SDHCAL)
- ICHEP 2016: Lan (DESY, AHCAL)
- EPS-HEP 2015: Naomi (MPP, AHCAL); Vladik (LLR, SiW ECAL)
- ICHEP 2014: MaryCruz (CIEMAT, SDHCAL); Eva (CERN, AHCAL)
- EPS-HEP 2013: Max Chefdeville (Annecy, SDHCAL)
Best regards,
Frank
<=========================================================>
Frank Simon
Max-Planck-Institut fuer Physik
Phone: +49-89-32354-535
Mobile: +49-160-90446142
<=========================================================>
> On 16. Mar 2018, at 16:00, Frank Simon <[log in to unmask]> wrote:
>
> Dear all,
>
> the abstracts have now been submitted.
>
> FYI, in the first abstract I have left “system issues” instead of the proposed "assembly / assembling issues”, since that part of the sentence is really not about assembly (that is the second part), but refers to the design of the technological prototypes which address system issues of full calorimeter systems, such as cooling, electronics integration, mechanical tolerances etc. So this wording still seems the most appropriate to me.
>
> Cheers,
>
> Frank
>
>
>
>> On 14. Mar 2018, at 22:11, Frank Simon <[log in to unmask]> wrote:
>>
>> Dear Marina, all,
>>
>> yes, I will take care of the submission. This will happen tomorrow or Friday, well before the deadline.
>>
>> Cheers,
>>
>> Frank
>>
>>> On 14. Mar 2018, at 21:51, Марина Чадеева <[log in to unmask]> wrote:
>>>
>>> Dear Jerry,
>>>
>>> yes, I of course agree with your correction.
>>> And I think we have now a consensus that both abstracts look fine and are
>>> ready for submission.
>>> I hope Frank will take care of submission.
>>>
>>> Thanks a lot.
>>> Marina
>>>
>>> В письме от Срд, 14 Мар 2018, 16:33 Jerry Blazey пишет:
>>>> Marina
>>>>
>>>> “Assembly issues” rings a bit better to the ear.
>>>>
>>>> Otherwise, I’m happy with these versions.
>>>>
>>>> JErry
>>>>
>>>>
>>>> Gerald (Jerry) C. Blazey, Ph.D.
>>>> Vice President for Research and Innovation Partnerships
>>>> Professor of Physics
>>>> Northern Illinois University
>>>> +1(815)753-1883 / [log in to unmask]
>>>>
>>>>
>>>> From: Distribution list for the Calice Speakers Bureau
>>>> <[log in to unmask]> on behalf of Марина Чадеева
>>>> <[log in to unmask]>
>>>> Reply-To: ""Марина Чадеева"" <[log in to unmask]>
>>>> Date: Wednesday, March 14, 2018 at 2:50 AM
>>>> To: "[log in to unmask]"
>>>> <[log in to unmask]>
>>>> Subject: Re: Deadline of abstract submission to ICHEP 2018
>>>>
>>>> Dear Frank, all,
>>>>
>>>> thank you very much for taking care of this.
>>>> I have some minor comments:
>>>>
>>>> 1) suggestion: "system issues" ---> "assembling issues"
>>>> "system issues" looks too common (severe)
>>>>
>>>> 2) "In this presentation, we present" ---> "We present"
>>>>
>>>> As for submission, I would be very grateful if Frank could submit the
>>>> abstracts because I will be travelling in the upcoming days at the end of
>>>> the week.
>>>>
>>>> Best regards,
>>>> Marina
>>>>
>>>>
>>>> В письме от Втр, 13 Мар 2018, 23:56 Frank Simon пишет:
>>>> Dear Jerry, all
>>>>
>>>> thank you very much for the fine-tuning of the abstracts! The new version
>>>> is given again below. Since the deadline is now imminent we should submit
>>>> the abstracts in the coming days, before the weekend.
>>>>
>>>> If there are any further comments / corrections please bring them up asap
>>>> (Imad: Of course the abstracts are meant to include SDHCAL developments,
>>>> for example under the keyword of large-area detector elements and
>>>> mechanics in the first one, and for the shower and performance studies
>>>> for
>>>> different technologies mentioned in the second one, but of course
>>>> alternative, more explicit formulations can also be adopted if you have a
>>>> good suggestion.)
>>>>
>>>> We also have to decide who submits them: The default would be Marina, but
>>>> if you prefer that somebody else does it just let me know, then I will
>>>> submit the abstracts to avoid any problems in the transition phase in the
>>>> speakers bureau.
>>>>
>>>> Cheers,
>>>>
>>>> Frank
>>>>
>>>>
>>>> ===
>>>>
>>>>
>>>> Scalability of technologies for highly granular calorimeters
>>>>
>>>> After the successful demonstration of the performance of highly granular
>>>> electromagnetic and hadronic calorimeters by the CALICE collaboration,
>>>> emphasis has shifted to system issues and large scale production. These
>>>> are addressed by varied technological prototypes currently in production.
>>>> In this presentation, we present work on silicon, scintillator, and
>>>> gas-detector based imaging calorimeters for future electron-positron
>>>> colliders, pointing out the relevance also for LHC upgrades and other
>>>> applications. Emphasis will be placed on techniques developed for mass
>>>> production, such as automatic testing of active detector elements;
>>>> packaging, wrapping, and mounting of scintillators; and automatized
>>>> assembly chains as well as on solutions for large-size detector
>>>> components, precision mechanics and services. We also report results from
>>>> recent laboratory and beam tests of electromagnetic and hadronic
>>>> calorimeter prototypes using these production and testing techniques.
>>>>
>>>>
>>>> Reconstruction and study of hadronic showers with highly granular
>>>> calorimeters
>>>>
>>>> Prototype imaging electromagnetic and hadronic calorimeters developed and
>>>> operated by the CALICE collaboration provide an unprecedented wealth of
>>>> highly granular data of hadronic showers for a variety of active sensor
>>>> elements and different absorber materials. In this presentation, we
>>>> discuss the reconstruction and energy resolution of single hadrons in
>>>> individual detectors and combined electromagnetic and hadronic systems
>>>> using software compensation and semi-digital energy reconstruction. We
>>>> report on the performance of particle flow algorithms, both in terms of
>>>> improved energy resolution with software compensation techniques for
>>>> simulated particle jets and for the separation of nearby particles. A
>>>> prototype scintillator-based hadron calorimeter provides time information
>>>> at the few nanosecond level, extending previous studies of the time
>>>> structure of hadronic showers in steel and tungsten absorbers to larger
>>>> detector volumes. These measurements, together with studies of the
>>>> spatial
>>>> structure of hadronic showers with different active elements, provide
>>>> four-dimensional information for hadronic showers which are confronted
>>>> with GEANT4 simulations using different hadronic physics models.
>>>>
>>>>
>>>>
>>>> On 28. Feb 2018, at 17:27, Jerry Blazey
>>>> <[log in to unmask]<mailto:[log in to unmask]>> wrote:
>>>>
>>>> Frank
>>>>
>>>> Thanks for taking a first pass at draft abstract. AS requested, I’ve
>>>> attempted to “smooth and tune”, a tracked verison is attached.
>>>>
>>>> Jerry
>>>>
>>>>
>>>> Gerald (Jerry) C. Blazey, Ph.D.
>>>> Vice President for Research and Innovation Partnerships
>>>> Professor of Physics
>>>> Northern Illinois University
>>>> +1(815)753-1883 / [log in to unmask]<mailto:[log in to unmask]>
>>>>
>>>>
>>>> From: Distribution list for the Calice Speakers Bureau
>>>> <[log in to unmask]<mailto:[log in to unmask]>>
>>>> on behalf of Frank Simon
>>>> <[log in to unmask]<mailto:[log in to unmask]>>
>>>> Reply-To: Frank Simon <[log in to unmask]<mailto:[log in to unmask]>>
>>>> Date: Monday, February 26, 2018 at 2:53 PM
>>>> To:
>>>> "[log in to unmask]<mailto:[log in to unmask]>"
>>>> <[log in to unmask]<mailto:[log in to unmask]>>
>>>> Subject: Re: Deadline of abstract submission to ICHEP 2018
>>>>
>>>>
>>>> Scalability of technologies for highly granular calorimeters
>>>>
>>>> After the successful validation of the concept of highly granular
>>>> electromagnetic and hadronic calorimeters by the CALICE collaboration,
>>>> the emphasis of the development has now shifted to the development of
>>>> solutions for system issues and large scale productions. These get
>>>> addressed by different technological prototypes currently in production.
>>>> In this presentation, we will present the technology R&D for silicon,
>>>> scintillator and gas-detector based imaging calorimeters for future
>>>> electron-positron colliders, pointing out the relevance also for LHC
>>>> upgrades and other applications. Particular emphasis will be placed on
>>>> techniques developed for mass production, such as automatic testing of
>>>> active detector elements, packaging and mounting of scintillators,
>>>> automatized assembly chains as well as on solutions for large-size
>>>> detector components, precision mechanics and services. We will also
>>>> report results from recent laboratory and beam tests of electromagnetic
>>>> and hadronic calorimeter prototypes making use of these production and
>>>> testing techniques.
>>>>
>>>>
>>>> Reconstruction and study of hadronic showers with highly granular
>>>> calorimeters
>>>>
>>>> The physics and technological prototypes of imaging electromagnetic and
>>>> hadronic calorimeters developed and operated by the CALICE collaboration
>>>> have provided an unprecedented wealth of highly granular data of
>>>> hadronic showers for a variety of active sensor elements and different
>>>> absorber materials. In this presentation, we will discuss the
>>>> reconstruction and energy resolution of single hadrons in individual
>>>> detectors and combined electromagnetic and hadronic systems using
>>>> software compensation and semi-digital energy reconstruction. The
>>>> performance observed in test beams is connected to particle flow
>>>> algorithms, both in terms of improved energy resolution with software
>>>> compensation techniques for simulated particle jets and for the
>>>> separation of nearby particles. The data taken with the technological
>>>> prototype of the scintillator-based hadron calorimeter provides time
>>>> information on the few nanosecond level, allowing to extend previous
>>>> studies of the time structure of hadronic showers in steel and tungsten
>>>> absorbers to larger detector volumes. These measurements, together with
>>>> studies of the spatial structure of hadronic showers with different
>>>> active elements, provide four-dimensional studies of hadronic showers
>>>> which are confronted with GEANT4 simulations using different hadronic
>>>> physics models.
>>>> <ICHEP 2018 Abstract Drafts.docx>
>>>>
>>>> <=========================================================>
>>>> Frank Simon
>>>>
>>>> Max-Planck-Institut fuer Physik
>>>>
>>>> Phone: +49-89-32354-535
>>>> Mobile: +49-160-90446142
>>>> <=========================================================>
>>>>
>>>>
>>>>
>>>> *************************************************************
>>>> Dr. Marina Chadeeva
>>>> Laboratory of heavy quarks and leptons, bld. 3,
>>>> P.N. Lebedev Physical Institute of the Russian Academy of Sciences
>>>> 53 Leninskiy Prospekt,
>>>> 119991, Moscow, Russia
>>>> ***************************************************************
>>>>
>>>>
>>>
>>>
>>> *************************************************************
>>> Dr. Marina Chadeeva
>>> Laboratory of heavy quarks and leptons, bld. 3,
>>> P.N. Lebedev Physical Institute of the Russian Academy of Sciences
>>> 53 Leninskiy Prospekt,
>>> 119991, Moscow, Russia
>>> ***************************************************************
>>
>> <=========================================================>
>> Frank Simon
>>
>> Max-Planck-Institut fuer Physik
>>
>> Phone: +49-89-32354-535
>> Mobile: +49-160-90446142
>> <=========================================================>
>
> <=========================================================>
> Frank Simon
>
> Max-Planck-Institut fuer Physik
>
> Phone: +49-89-32354-535
> Mobile: +49-160-90446142
> <=========================================================>
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