[Nuclear] [EXTERNAL] Abstract for CPHI 2022 By Sebouh Paul

[Lamiaa El-Fassi]

Dear NPWG members,

Given this is my first communication with you in 2022, I hope you had a
safe and relaxing holiday break, and my best wishes to you and yours for a
happy and healthy new year.

Please see the message below from Sebouh Paul for his CPHI 2022
abstract review and approval. The abstract is also linked to our
wiki-page Abstracts/Talks
tab
<https://clasweb.jlab.org/Hall-B/npwg/index.php/Main_Page#Abstracts.2FTalks>.
Please forward any comments/suggestions you have about his abstract to him
and myself. The abstract submission deadline is Feb. 1st.

Best,

Lamiaa

---------- Forwarded message ---------
From: Sebouh Paul <sebouh.paul at gmail.com>
Date: Thu, Jan 13, 2022 at 2:45 PM
Subject: Abstract for CPHI 2022
To: El Fassi, Lamiaa <le334 at msstate.edu>
Cc: Miguel Arratia <miguel.arratia at ucr.edu>


Dear Lamiaa,
Could you send the following abstract to the NPWG for review?   I plan
to submit it to the CPHI 2022.   The event website is
https://urldefense.proofpoint.com/v2/url?u=https-3A__secure-2Dweb.cisco.com_109wtDYAPuljPLXMtcjjXSJTkZB1vdtc8j4i0-2DB3vC-2DUyZXh-5FWlO1RcNXBAoeHsp4sDcCTFKqQlYu-2DFbmvuGcBXP4POF2oF3euW8ZBHe-2DZvCjCwsSD7IiPsreQRw5cCl8QVQ8Yx03sZrEgtwagjb7B5ICK5PF4kgqbZWCfEHbG49EcnomMe4kQLa1uFmF-2DvLulVeUdpURCv5uuR-2DX5OtlmrSwutI15Dzr9klkm2zVv790IzsB82GwdOifdOu-2DWn2AV3bCM0tbMn-5F32cUOqN6vAY-2DtSb5eDBfbVc9GiUfcB7W6As0ef-5FTS-2DXgWCKLgOhOL_https-253A-252F-252Findico.jlab.org-252Fevent-252F498-252F&d=DwIFaQ&c=CJqEzB1piLOyyvZjb8YUQw&r=oFpNaB86z9R0_Cm6JnqHF7R2h2vWMtKYuwr2PTSEYoE&m=Ar9N3V1AqINCd4auMw8HfgDTgKaWXgcOqEnQtjaRIOKrfKpwyHudwLa4v_Hk56c7&s=ahCDwhFPis4e8k4FZ2wu-KkOJE2vQMMRLaVGDNaGZzc&e= 
 The deadline for submission is
February 1.
Thanks and best regards,
Sebouh

Di-hadron correlations in 𝑒−A DIS with CLAS

The CLAS Collaboration presents a measurement of the nuclear
dependence of di-hadron production in deep inelastic scattering off
nuclei using the CLAS detector at JLab. We report results on the
di-hadron correlation functions (that is, the efficiency-corrected
probability of detecting a second hadron given the detection of the
first) for charged pions using deuterium, carbon, iron, and lead data.
By making separate measurements for each target type, the results
complement earlier measurements of nuclear-to-deuterium ratios for
single- and/or di-hadron yields. We report the first measurement of
azimuthal and rapidity correlations in nuclear DIS. The correlation
function increases with both the azimuthal and the rapidity separation
between pions, but this effect is less pronounced for heavier nuclei
than for deuterium. This represents a new type of study in
electron-nucleus collisions and serves as a pathfinder for future
experiments with CLAS12 and the Electron-Ion Collider.
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