Browsing by Author "J. Adam"

Now showing 1 - 3 of 3

ATHENA detector proposal - a totally hermetic electron nucleus apparatus proposed for IP6 at the Electron-Ion Collider
(Institute of Physics, 2022) J. Adam; L. Adamczyk; N. Agrawal; C. Aidala; W. Akers; M. Alekseev; M.M. Allen; F. Ameli; A. Angerami; P. Antonioli; N.J. Apadula; A. Aprahamian; W. Armstrong; M. Arratia; J.R. Arrington; A. Asaturyan; E.C. Aschenauer; K. Augsten; S. Aune; K. Bailey; C. Baldanza; M. Bansal; F. Barbosa; L. Barion; K. Barish; M. Battaglieri; A. Bazilevsky; N.K. Behera; V. Berdnikov; J. Bernauer; C. Berriaud; A. Bhasin; D.S. Bhattacharya; J. Bielcik; J. Bielcikova; C. Bissolotti; W. Boeglin; M. Bondì; M. Borri; F. Bossù; F. Bouyjou; J.D. Brandenburg; A. Bressan; M. Brooks; S.L. Bültmann; D. Byer; H. Caines; M. Calderon De La Barca Sanchez; V. Calvelli; A. Camsonne; L. Cappelli; M. Capua; M. Castro; D. Cavazza; D. Cebra; A. Celentano; I. Chakaberia; B. Chan; W. Chang; M. Chartier; C. Chatterjee; D. Chen; J. Chen; K. Chen; Z. Chen; H. Chetri; T. Chiarusi; M. Chiosso; X. Chu; J.J. Chwastowski; G. Cicala; E. Cisbani; E. Cline; I. Cloët; D. Colella; M. Contalbrigo; G. Contin; R. Corliss; Y. Corrales-Morales; J. Crafts; C. Crawford; R. Cruz-Torres; D. D'Ago; A. D'Angelo; N. D'Hose; J. Dainton; S. Dalla Torre; S.S. Dasgupta; S. Dash; N. Dashyan; J. Datta; M. Daugherity; R. De Vita; W. Deconinck; M. Defurne; K. Dehmelt; A. Del Dotto; F. Delcarro; G. Dellacasa; Z.S. Demiroglu; G.W. Deptuch; V. Desai; A. Deshpande; K. Devereaux; R. Dhillon; R. Di Salvo; C. Dilks; D. Dixit; S. Dobbs; X. Dong; J. Drachenberg; A. Drees; R. Dupré; M. Durham; R. Dzhygadlo; L. El Fassi; D. Elia; E. Epple; R. Esha; O. Evdokimov; O. Eyser; D. Falchieri; W. Fan; A. Fantini; R. Fatemi; S. Fazio; S. Fegan; A. Filippi; H. Fox; A. Francisco; A. Freeze; S. Furletov; Y. Furletova; C. Gal; S. Gardner; P. Garg; D. Gaskell; K. Gates; M.T.W. Gericke; F. Geurts; C. Ghosh; M. Giacalone; F. Giacomini; S. Gilchrist; D. Glazier; K. Gnanvo; L. Gonella; L.C. Greiner; N. Guerrini; L. Guo; A. Gupta; R. Gupta; W. Guryn; X. He; T. Hemmick; S. Heppelmann; D. Higinbotham; M. Hoballah; A. Hoghmrtsyan; M. Hohlmann; T. Horn; D. Hornidge; H.Z. Huang; C.E. Hyde; P. Iapozzuto; M. Idzik; B.V. Jacak; M. Jadhav; S. Jain; C. Jena; A. Jentsch; Y. Ji; Z. Ji; J. Jia; P.G. Jones; R.W.I. Jones; S. Joosten; S. Joshi; L. Kabir; G. Kalicy; G. Karyan; V.K.S. Kashyap; D. Kawall; H. Ke; M. Kelsey; J. Kim; J. Kiryluk; A. Kiselev; S.R. Klein; H. Klest; V. Kochar; W. Korsch; L. Kosarzewski; A. Kotzinian; F. Krizek; A. Kumar; K.S. Kumar; L. Kumar; R. Kumar; S. Kumar; A. Kunnath; N. Kushawaha; R. Lacey; Y.S. Lai; K. Lalwani; J. Landgraf; L. Lanza; D. Lattuada; M. Lavinsky; J.H. Lee; S.H. Lee; R. Lemmon; A. Lestone; N. Lewis; H. Li; S. Li; W. Li; W. Li; X. Li; X. Li; X. Liang; T. Ligonzo; T. Lin; J. Liu; K. Liu; M. Liu; K. Livingston; N. Liyanage; T. Ljubicic; O. Long; N. Lukow; Y. Ma; J. Mammei; F. Mammoliti; K. Mamo; I. Mandjavidze; S. Maple; D. Marchand; A. Margotti; C. Markert; P. Markowitz; T. Marshall; A. Martin; H. Marukyan; A. Mastroserio; S. Mathew; S. Mayilyan; C. Mayri; M. McEneaney; Y. Mei; L. Meng; F. Méot; J. Metcalfe; Z.-E. Meziani; P. Mihir; R. Milton; A. Mirabella; M. Mirazita; A. Mkrtchyan; H. Mkrtchyan; B. Mohanty; M. Mondal; A. Morreale; A. Movsisyan; D. Muenstermann; A. Mukherjee; C. Munoz Camacho; M.J. Murray; H. Mustafa; M. Myška; B.P. Nachman; K. Nagai; R. Naik; J.P. Naim; J. Nam; B. Nandi; E. Nappi; Md. Nasim; D. Neff; D. Neiret; P.R. Newman; M. Nguyen; S. Niccolai; M. Nie; F. Noferini; J. Norman; F. Noto; A.S. Nunes; T. O'Connor; G. Odyniec; V.A. Okorokov; M. Osipenko; B. Page; C. Palatchi; D. Palmer; P. Palni; S. Pandey; D. Panzieri; S. Park; K. Paschke; C. Pastore; R.N. Patra; A. Paul; S. Paul; C. Pecar; A. Peck; I. Pegg; C. Pellegrino; C. Peng; L. Pentchev; R. Perrino; K. Piotrzkowski; T. Polakovic; M. Płoskoń; M. Posik; S. Prasad; R. Preghenella; S. Priens; E. Prifti; M. Przybycien; P. Pujahari; A. Quintero; M. Radici; S.K. Radhakrishnan; S. Rahman; S. Rathi; B. Raue; R. Reed; P. Reimer; J. Reinhold; E. Renner; L. Rignanese; M. Ripani; A. Rizzo; D. Romanov; A. Roy; N. Rubini; M. Ruspa; L. Ruan; F. Sabatié; S. Sadhukhan; N. Sahoo; P. Sahu; D. Samuel; A. Sarkar; M. Sarsour; W. Schmidke; B. Schmookler; C. Schwarz; J. Schwiening; M. Scott; I. Sedgwick; M. Segreti; S. Sekula; R. Seto; N. Shah; A. Shahinyan; D. Sharma; N. Sharma; E.P. Sichtermann; A. Signori; A. Singh; B.K. Singh; S.N. Singh; N. Smirnov; D. Sokhan; R. Soltz; W. Sondheim; S. Spinali; F. Stacchi; R. Staszewski; P. Stepanov; S. Strazzi; I.R. Stroe; X. Sun; B. Surrow; Z. Sweger; T.J. Symons; V. Tadevosyan; A. Tang; E. Tassi; L. Teodorescu; F. Tessarotto; D. Thomas; J.H. Thomas; T. Toll; L. Tomášek; F. Torales-Acosta; P. Tribedy; Triloki; V. Tripathi; R. Trotta; M. Trzebiński; B.A. Trzeciak; O. Tsai; Z. Tu; R. Turrisi; C. Tuvè; T. Ullrich; G.M. Urciuoli; A. Valentini; S. Vallarino; M. Vandenbroucke; J. Vanek; G. Vino; G. Volpe; H. Voskanyan; A. Vossen; E. Voutier; G. Wang; Y. Wang; D. Watts; N. Wickramaarachchi; F. Wilson; C.-P. Wong; X. Wu; Y. Wu; J. Xie; Q.-H. Xu; Z. Xu; Z.W. Xu; C. Yang; Q. Yang; Y. Yang; Z. Ye; Z. Ye; L. Yi; Z. Yin; M. Yurov; N. Zachariou; J. Zhang; Y. Zhang; Z. Zhang; Z. Zhang; Y. Zhao; Y.X. Zhao; Z. Zhao; L. Zheng; M. Żurek
ATHENA has been designed as a general purpose detector capable of delivering the full scientific scope of the Electron-Ion Collider. Careful technology choices provide fine tracking and momentum resolution, high performance electromagnetic and hadronic calorimetry, hadron identification over a wide kinematic range, and near-complete hermeticity. This article describes the detector design and its expected performance in the most relevant physics channels. It includes an evaluation of detector technology choices, the technical challenges to realizing the detector and the R&D required to meet those challenges. © 2022 The Author(s).
Computational insights into the adsorption of norepinephrine neurotransmitter onto B12N12 nanocage
(Elsevier Ltd, 2024) T. Yadav; E. Shakerzadeh; S. Goswami; E. Tahmasebi; J. Adam; S. Garai
The present study reports the adsorption behaviour of norepinephrine neurotransmitter onto boron nitride (B12N12) nanocage to explore its suitability for targeted drug delivery. The potential use of B12N12 nanocage for targeted drug delivery of norepinephrine has been analyzed by computing geometrical and electronic properties and adsorption energies in various possible norepinephrine@B12N12 nanohybrids. All quantum chemical calculations for geometry optimization and vibrational frequency analysis have been performed at the DFT/B3LYP/6-311G(d,p) level of theory. Norepinephrine adsorbs onto B12N12 nanocage via C-H···π, N-H···π, O-H···π, O-H···N hydrogen bond, O[sbnd]B and N[sbnd]B dative bonds. The nanohybrid of norepinephrine@B12N12, in its most favourable configuration, offers −33.31 kcal/mol in the gas phase, reflecting the potential of the B12N12 nanocage for drug delivery applications of norepinephrine. The effect of the aqueous medium on adsorption energy and electronic properties of the most favourable nanohybrid has also been investigated. Natural bond orbital (NBO) computations have assessed net charge transfer between norepinephrine and the B12N12 nanocage. Moreover, ab initio molecular dynamics (AIMD) simulations have been performed to ensure the thermal stability of the studied nanohybrid. © 2024 Elsevier B.V.
Science Requirements and Detector Concepts for the Electron-Ion Collider: EIC Yellow Report
(Elsevier B.V., 2022) R. Abdul Khalek; A. Accardi; J. Adam; D. Adamiak; W. Akers; M. Albaladejo; A. Al-bataineh; M.G. Alexeev; F. Ameli; P. Antonioli; N. Armesto; W.R. Armstrong; M. Arratia; J. Arrington; A. Asaturyan; M. Asai; E.C. Aschenauer; S. Aune; H. Avagyan; C. Ayerbe Gayoso; B. Azmoun; A. Bacchetta; M.D. Baker; F. Barbosa; L. Barion; K.N. Barish; P.C. Barry; M. Battaglieri; A. Bazilevsky; N.K. Behera; F. Benmokhtar; V.V. Berdnikov; J.C. Bernauer; V. Bertone; S. Bhattacharya; C. Bissolotti; D. Boer; M. Boglione; M. Bondì; P. Boora; I. Borsa; F. Bossù; G. Bozzi; J.D. Brandenburg; N. Brei; A. Bressan; W.K. Brooks; S. Bufalino; M.H.S. Bukhari; V. Burkert; N.H. Buttimore; A. Camsonne; A. Celentano; F.G. Celiberto; W. Chang; C. Chatterjee; K. Chen; T. Chetry; T. Chiarusi; Y.-T. Chien; M. Chiosso; X. Chu; E. Chudakov; G. Cicala; E. Cisbani; I.C. Cloet; C. Cocuzza; P.L. Cole; D. Colella; J.L. Collins; M. Constantinou; M. Contalbrigo; G. Contin; R. Corliss; W. Cosyn; A. Courtoy; J. Crafts; R. Cruz-Torres; R.C. Cuevas; U. D'Alesio; S. Dalla Torre; D. Das; S.S. Dasgupta; C. Da Silva; W. Deconinck; M. Defurne; W. DeGraw; K. Dehmelt; A. Del Dotto; F. Delcarro; A. Deshpande; W. Detmold; R. De Vita; M. Diefenthaler; C. Dilks; D.U. Dixit; S. Dulat; A. Dumitru; R. Dupré; J.M. Durham; M.G. Echevarria; L. El Fassi; D. Elia; R. Ent; R. Esha; J.J. Ethier; O. Evdokimov; K.O. Eyser; C. Fanelli; R. Fatemi; S. Fazio; C. Fernandez-Ramirez; M. Finger; D. Fitzgerald; C. Flore; T. Frederico; I. Friščić; S. Fucini; S. Furletov; Y. Furletova; C. Gal; L. Gamberg; H. Gao; P. Garg; D. Gaskell; K. Gates; M.B. Gay Ducati; M. Gericke; G. Gil Da Silveira; F.-X. Girod; D.I. Glazier; K. Gnanvo; V.P. Goncalves; L. Gonella; J.O. Gonzalez Hernandez; Y. Goto; F. Grancagnolo; L.C. Greiner; W. Guryn; V. Guzey; Y. Hatta; M. Hattawy; F. Hauenstein; X. He; T.K. Hemmick; O. Hen; G. Heyes; D.W. Higinbotham; A.N. Hiller Blin; T.J. Hobbs; M. Hohlmann; T. Horn; T.-J. Hou; J. Huang; Q. Huang; G.M. Huber; C.E. Hyde; G. Iakovidis; Y. Ilieva; B.V. Jacak; P.M. Jacobs; M. Jadhav; Z. Janoska; A. Jentsch; T. Jezo; X. Jing; P.G. Jones; K. Joo; S. Joosten; V. Kafka; N. Kalantarians; G. Kalicy; D. Kang; Z.B. Kang; K. Kauder; S.J.D. Kay; C.E. Keppel; J. Kim; A. Kiselev; M. Klasen; S. Klein; H.T. Klest; O. Korchak; A. Kostina; P. Kotko; Y.V. Kovchegov; M. Krelina; S. Kuleshov; S. Kumano; K.S. Kumar; R. Kumar; L. Kumar; K. Kumerički; A. Kusina; K. Kutak; Y.S. Lai; K. Lalwani; T. Lappi; J. Lauret; M. Lavinsky; D. Lawrence; D. Lednicky; C. Lee; K. Lee; S.H. Lee; S. Levorato; H. Li; S. Li; W. Li; X. Li; W.B. Li; T. Ligonzo; H. Liu; M.X. Liu; X. Liu; S. Liuti; N. Liyanage; C. Lorcé; Z. Lu; G. Lucero; N.S. Lukow; E. Lunghi; R. Majka; Y. Makris; I. Mandjavidze; S. Mantry; H. Mäntysaari; F. Marhauser; P. Markowitz; L. Marsicano; A. Mastroserio; V. Mathieu; Y. Mehtar-Tani; W. Melnitchouk; L. Mendez; A. Metz; Z.-E. Meziani; C. Mezrag; M. Mihovilovič; R. Milner; M. Mirazita; H. Mkrtchyan; A. Mkrtchyan; V. Mochalov; V. Moiseev; M.M. Mondal; A. Morreale; D. Morrison; L. Motyka; H. Moutarde; C. Muñoz Camacho; F. Murgia; M.J. Murray; P. Musico; P. Nadel-Turonski; P.M. Nadolsky; J. Nam; P.R. Newman; D. Neyret; D. Nguyen; E.R. Nocera; F. Noferini; F. Noto; A.S. Nunes; V.A. Okorokov; F. Olness; J.D. Osborn; B.S. Page; S. Park; A. Parker; K. Paschke; B. Pasquini; H. Paukkunen; S. Paul; C. Pecar; I.L. Pegg; C. Pellegrino; C. Peng; L. Pentchev; R. Perrino; F. Petriello; R. Petti; A. Pilloni; C. Pinkenburg; B. Pire; C. Pisano; D. Pitonyak; A.A. Poblaguev; T. Polakovic; M. Posik; M. Potekhin; R. Preghenella; S. Preins; A. Prokudin; P. Pujahari; M.L. Purschke; J.R. Pybus; M. Radici; R. Rajput-Ghoshal; P.E. Reimer; M. Rinaldi; F. Ringer; C.D. Roberts; S. Rodini; J. Rojo; D. Romanov; P. Rossi; E. Santopinto; M. Sarsour; R. Sassot; N. Sato; B. Schenke; W.B. Schmidke; I. Schmidt; A. Schmidt; B. Schmookler; G. Schnell; P. Schweitzer; J. Schwiening; I. Scimemi; S. Scopetta; J. Segovia; R. Seidl; S. Sekula; K. Semenov-Tian-Shanskiy; D.Y. Shao; N. Sherrill; E. Sichtermann; M. Siddikov; A. Signori; B.K. Singh; S. Širca; K. Slifer; W. Slominski; D. Sokhan; W.E. Sondheim; Y. Song; O. Soto; H. Spiesberger; A.M. Stasto; P. Stepanov; G. Sterman; J.R. Stevens; I.W. Stewart; I. Strakovsky; M. Strikman; M. Sturm; M.L. Stutzman; M. Sullivan; B. Surrow; P. Svihra; S. Syritsyn; A. Szczepaniak; P. Sznajder; H. Szumila-Vance; L. Szymanowski; A.S. Tadepalli; J.D. Tapia Takaki; G.F. Tassielli; J. Terry; F. Tessarotto; K. Tezgin; L. Tomasek; F. Torales Acosta; P. Tribedy; A. Tricoli; Triloki; S. Tripathi; R.L. Trotta; O.D. Tsai; Z. Tu; C. Tuvè; T. Ullrich; M. Ungaro; G.M. Urciuoli; A. Valentini; P. Vancura; M. Vandenbroucke; C. Van Hulse; G. Varner; R. Venugopalan; I. Vitev; A. Vladimirov; G. Volpe; A. Vossen; E. Voutier; J. Wagner; S. Wallon; H. Wang; Q. Wang; X. Wang; S.Y. Wei; C. Weiss; T. Wenaus; H. Wennlöf; N. Wickramaarachchi; A. Wikramanayake; D. Winney; C.P. Wong; C. Woody; L. Xia; B.W. Xiao; J. Xie; H. Xing; Q.H. Xu; J. Zhang; S. Zhang; Z. Zhang; Z.W. Zhao; Y.X. Zhao; L. Zheng; Y. Zhou; P. Zurita
This report describes the physics case, the resulting detector requirements, and the evolving detector concepts for the experimental program at the Electron-Ion Collider (EIC). The EIC will be a powerful new high-luminosity facility in the United States with the capability to collide high-energy electron beams with high-energy proton and ion beams, providing access to those regions in the nucleon and nuclei where their structure is dominated by gluons. Moreover, polarized beams in the EIC will give unprecedented access to the spatial and spin structure of the proton, neutron, and light ions. The studies leading to this document were commissioned and organized by the EIC User Group with the objective of advancing the state and detail of the physics program and developing detector concepts that meet the emerging requirements in preparation for the realization of the EIC. The effort aims to provide the basis for further development of concepts for experimental equipment best suited for the science needs, including the importance of two complementary detectors and interaction regions. This report consists of three volumes. Volume I is an executive summary of our findings and developed concepts. In Volume II we describe studies of a wide range of physics measurements and the emerging requirements on detector acceptance and performance. Volume III discusses general-purpose detector concepts and the underlying technologies to meet the physics requirements. These considerations will form the basis for a world-class experimental program that aims to increase our understanding of the fundamental structure of all visible matter. © 2022 Elsevier B.V.