BibTex format
@inproceedings{Alden:2025:10.22323/1.501.1044,
author = {Alden, N and Ali, S and Allison, P and Archambault, S and Beatty, JJ and Besson, DZ and Bishop, A and Chen, P and Chen, YC and Chen, YC and Chiche, S and Clark, BA and Connolly, A and Couberly, K and Cremonesi, L and Cummings, A and Dasgupta, P and Debolt, R and de, Kockere S and de, Vries KD and Deaconu, C and DuVernois, MA and Flaherty, J and Friedman, E and Gaior, R and Giri, P and Hanson, J and Harty, N and Hoffman, KD and Huang, MH and Hughes, K and Ishihara, A and Karle, A and Kelley, JL and Kim, KC and Kim, MC and Kravchenko, I and Krebs, R and Kuo, CY and Kurusu, K and Latif, UA and Liu, CH and Liu, TC and Luszczak, W and Machtay, A and Mase, K and Muzio, MS and Nam, J and Nichol, RJ and Novikov, A and Nozdrina, A and Oberla, E and Pai, CW and Pan, Y and Pfendner, C and Punsuebsay, N and Roth, J and Salcedo-Gomez, A and Seckel, D and Seikh, MFH and Shiao, YS and Su, SC and Toscano, S and Torres, J and Touart, J and van, Eijndhoven N and Vieregg, A and Fostier, MV and Wang, MZ a},
doi = {10.22323/1.501.1044},
title = {Advancing ARA: the Next-Generation (ARA-Next) DAQ System},
url = {http://dx.doi.org/10.22323/1.501.1044},
year = {2025}
}
RIS format (EndNote, RefMan)
TY - CPAPER
AB - The Askaryan Radio Array (ARA) has been operating at the South Pole for over a decade, searching for ultra-high-energy astrophysical and cosmogenic neutrinos using the Askaryan effect. ARA has consistently served as a testbed for innovative trigger designs and advancing electronic upgrades, with ongoing data acquisition (DAQ) improvements over the past 2–3 years and a long-term plan to transition to Radio Frequency System-on-Chip (RFSoC) technology. This upgrade enables real-time data processing and sophisticated triggers, enhancing efficiency by identifying double pulses from in-ice neutrino interactions, using templates for cosmic rays, searching for real-time coincidences with the IceCube detector observations, and filtering anthropogenic noise through directional analysis. In 2024, two of the five ARA stations received DAQ upgrades, improving the existing electronics, with RFSoC-based DAQ foreseen in the coming years. In this proceedings contribution, recent ARA activities are presented, with emphasis on the planned ARA-Next trigger strategies involving RFSoC technology and the 2024–2025 season upgrades of the existing ATRI-based DAQ system to its revised version.
AU - Alden,N
AU - Ali,S
AU - Allison,P
AU - Archambault,S
AU - Beatty,JJ
AU - Besson,DZ
AU - Bishop,A
AU - Chen,P
AU - Chen,YC
AU - Chen,YC
AU - Chiche,S
AU - Clark,BA
AU - Connolly,A
AU - Couberly,K
AU - Cremonesi,L
AU - Cummings,A
AU - Dasgupta,P
AU - Debolt,R
AU - de,Kockere S
AU - de,Vries KD
AU - Deaconu,C
AU - DuVernois,MA
AU - Flaherty,J
AU - Friedman,E
AU - Gaior,R
AU - Giri,P
AU - Hanson,J
AU - Harty,N
AU - Hoffman,KD
AU - Huang,MH
AU - Hughes,K
AU - Ishihara,A
AU - Karle,A
AU - Kelley,JL
AU - Kim,KC
AU - Kim,MC
AU - Kravchenko,I
AU - Krebs,R
AU - Kuo,CY
AU - Kurusu,K
AU - Latif,UA
AU - Liu,CH
AU - Liu,TC
AU - Luszczak,W
AU - Machtay,A
AU - Mase,K
AU - Muzio,MS
AU - Nam,J
AU - Nichol,RJ
AU - Novikov,A
AU - Nozdrina,A
AU - Oberla,E
AU - Pai,CW
AU - Pan,Y
AU - Pfendner,C
AU - Punsuebsay,N
AU - Roth,J
AU - Salcedo-Gomez,A
AU - Seckel,D
AU - Seikh,MFH
AU - Shiao,YS
AU - Su,SC
AU - Toscano,S
AU - Torres,J
AU - Touart,J
AU - van,Eijndhoven N
AU - Vieregg,A
AU - Fostier,MV
AU - Wang,MZ
AU - Wang,SH
AU - Windischhofer,P
AU - Wissel,SA
AU - Xie,C
AU - Yoshida,S
AU - Young,R
DO - 10.22323/1.501.1044
PY - 2025///
TI - Advancing ARA: the Next-Generation (ARA-Next) DAQ System
UR - http://dx.doi.org/10.22323/1.501.1044
ER -