<div dir="ltr"><div class="gmail_default" style="font-family:tahoma,sans-serif">Dear NPWG members, </div><div class="gmail_default" style="font-family:tahoma,sans-serif"><br></div><div class="gmail_default" style=""><font face="tahoma, sans-serif">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. <br></font></div><div class="gmail_default" style=""><font face="tahoma, sans-serif"><br></font></div><div class="gmail_default" style=""><font face="tahoma, sans-serif">Please see the message below from Sebouh Paul for <span class="gmail_default" style="">his </span>CPHI 2022 abstract review and approval. The abstract is also linked to our wiki-page <a href="https://clasweb.jlab.org/Hall-B/npwg/index.php/Main_Page#Abstracts.2FTalks">Abstracts/Talks tab</a>. Please forward any comments/suggestions you have about his abstract to him and myself. The abstract submission deadline is Feb. 1st.</font></div><div><div dir="ltr" class="gmail_signature" data-smartmail="gmail_signature"><div dir="ltr"><div dir="ltr"><div dir="ltr"><div dir="ltr"><div dir="ltr"><div dir="ltr"><div dir="ltr"><div dir="ltr"><div dir="ltr"><br>Best<span class="gmail_default" style="font-family:tahoma,sans-serif">, </span><br><br>Lamiaa</div></div></div></div></div></div></div></div></div></div></div><br><div class="gmail_quote"><div dir="ltr" class="gmail_attr">---------- Forwarded message ---------<br>From: <strong class="gmail_sendername" dir="auto">Sebouh Paul</strong> <span dir="auto"><<a href="mailto:sebouh.paul@gmail.com">sebouh.paul@gmail.com</a>></span><br>Date: Thu, Jan 13, 2022 at 2:45 PM<br>Subject: Abstract for CPHI 2022<br>To: El Fassi, Lamiaa <<a href="mailto:le334@msstate.edu">le334@msstate.edu</a>><br>Cc: Miguel Arratia <<a href="mailto:miguel.arratia@ucr.edu">miguel.arratia@ucr.edu</a>><br></div><br><br>Dear Lamiaa,<br>
Could you send the following abstract to the NPWG for review? I plan<br>
to submit it to the <span class="gmail_default" style="font-family:tahoma,sans-serif"></span>CPHI 2022. The event website is<br>
<a href="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=DwMFaQ&c=CJqEzB1piLOyyvZjb8YUQw&r=oFpNaB86z9R0_Cm6JnqHF7R2h2vWMtKYuwr2PTSEYoE&m=Ar9N3V1AqINCd4auMw8HfgDTgKaWXgcOqEnQtjaRIOKrfKpwyHudwLa4v_Hk56c7&s=ahCDwhFPis4e8k4FZ2wu-KkOJE2vQMMRLaVGDNaGZzc&e=" rel="noreferrer" target="_blank">https://secure-web.cisco.com/109wtDYAPuljPLXMtcjjXSJTkZB1vdtc8j4i0-B3vC-UyZXh_WlO1RcNXBAoeHsp4sDcCTFKqQlYu-FbmvuGcBXP4POF2oF3euW8ZBHe-ZvCjCwsSD7IiPsreQRw5cCl8QVQ8Yx03sZrEgtwagjb7B5ICK5PF4kgqbZWCfEHbG49EcnomMe4kQLa1uFmF-vLulVeUdpURCv5uuR-X5OtlmrSwutI15Dzr9klkm2zVv790IzsB82GwdOifdOu-Wn2AV3bCM0tbMn_32cUOqN6vAY-tSb5eDBfbVc9GiUfcB7W6As0ef_TS-XgWCKLgOhOL/https%3A%2F%2Findico.jlab.org%2Fevent%2F498%2F</a> The deadline for submission is<br>
February 1.<br>
Thanks and best regards,<br>
Sebouh<br>
<br>
Di-hadron correlations in 𝑒−A DIS with CLAS<br>
<br>
The CLAS Collaboration presents a measurement of the nuclear<br>
dependence of di-hadron production in deep inelastic scattering off<br>
nuclei using the CLAS detector at JLab. We report results on the<br>
di-hadron correlation functions (that is, the efficiency-corrected<br>
probability of detecting a second hadron given the detection of the<br>
first) for charged pions using deuterium, carbon, iron, and lead data.<br>
By making separate measurements for each target type, the results<br>
complement earlier measurements of nuclear-to-deuterium ratios for<br>
single- and/or di-hadron yields. We report the first measurement of<br>
azimuthal and rapidity correlations in nuclear DIS. The correlation<br>
function increases with both the azimuthal and the rapidity separation<br>
between pions, but this effect is less pronounced for heavier nuclei<br>
than for deuterium. This represents a new type of study in<br>
electron-nucleus collisions and serves as a pathfinder for future<br>
experiments with CLAS12 and the Electron-Ion Collider.<br>
<br>
</div></div>