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1. Geodesics and Global Properties of the Liouville Solution in General Relativity with a Scalar Field

Author

Afanasev, D. E. and Katanaev, M. O.

Subjects
General Relativity and Quantum Cosmology
Abstract

One parameter family of exact solutions in General Relativity with a scalar field has been found using the Liouville metric. The scalar field potential has exponential form. This model is interesting, because, in particular, the solution corresponding to the naked singularity provides smooth extension of the Friedmann universe with accelerated expansion through the zero of the scale factor back in time. All geodesics are found explicitly. Their analysis shows that the Liouville solutions are global ones: every geodesic is either continued to infinite value of the canonical parameter in both directions or ends up at the singularity at its finite value., Comment: 25 pages, 12 figures, minor corrections. arXiv admin note: text overlap with arXiv:2405.09422

Published
2024

2. On axial algebras with $3$ eigenvalues

Author

Afanasev, Vsevolod A.

Subjects
Mathematics - Rings and Algebras
Abstract

We study axial algebras, that is, commutative non-associative algebras generated by idempotents whose adjoint actions are semisimple and obey a fusion law. Considering the case, when said adjoint actions having $3$ eigenvalues and the fusion law is the least restrictive, we describe $2$-generated and $3$-generated algebras and prove some of their general properties., Comment: 20 pages

Published
2024

3. Searching for groups related to pseudo-composition algebras

Author

Afanasev, Vsevolod A.

Subjects
Mathematics - Group Theory
Abstract

We study the class of idempotent-generated pseudo-composition algebras, which is a subclass of the family of axial algebras. More specifically, we utilise the group-algebra correspondence, natural to the axial framework in order to study some automorphism subgroups of such pseudo-composition algebras., Comment: 16 pages

Published
2024

4. Was there a Big Bang?

Author

Afanasev, D. E. and Katanaev, M. O.

Subjects
General Relativity and Quantum Cosmology, High Energy Physics - Theory, Mathematical Physics
Abstract

New one parameter family of exact solutions in General Relativity with a scalar field is found. The metric is of Liouville type which admits complete separation of variables in the geodesic Hamilton-Jacobi equation. This solution exists for the exponential potential for a scalar field and is invariant with respect to global Lorentz transformations. It describes, in particular, evolution of the space-time with the naked singularity. Solutions corresponding to the naked singularity provide accelerating expansion of the homogeneous and isotropic Universe, and can be smoothly continued along geodesics to infinite past without Big Bang., Comment: 8 pages, 2 figures; minor corrections

Published
2024

6. The present and future of QCD

Author

Achenbach, P, Adhikari, D, Afanasev, A, Afzal, F, Aidala, CA, Al-bataineh, A, Almaalol, DK, Amaryan, M, Androić, D, Armstrong, WR, Arratia, M, Arrington, J, Asaturyan, A, Aschenauer, EC, Atac, H, Avakian, H, Averett, T, Gayoso, C Ayerbe, Bai, X, Barish, KN, Barnea, N, Basar, G, Battaglieri, M, Baty, AA, Bautista, I, Bazilevsky, A, Beattie, C, Behera, SC, Bellini, V, Bellwied, R, Benesch, JF, Benmokhtar, F, Bernardes, CA, Bernauer, JC, Bhatt, H, Bhatta, S, Boer, M, Boettcher, TJ, Bogacz, SA, Bossi, HJ, Brandenburg, JD, Brash, EJ, Briceño, RA, Briscoe, WJ, Brodsky, SJ, Brown, DA, Burkert, VD, Caines, H, Cali, IA, Camsonne, A, Carman, DS, Caylor, J, Cerci, DS, Cerci, S, Llatas, M Chamizo, Chatterjee, S, Chen, JP, Chen, Y, Chen, Y-C, Chien, Y-T, Chou, P-C, Chu, X, Chudakov, E, Cline, E, Cloët, IC, Cole, PL, Connors, ME, Constantinou, M, Cosyn, W, Dusa, S Covrig, Cruz-Torres, R, D'Alesio, U, da Silva, C, Davoudi, Z, Dean, CT, Dean, DJ, Demarteau, M, Deshpande, A, Detmold, W, Deur, A, Devkota, BR, Dhital, S, Diefenthaler, M, Dobbs, S, Döring, M, Dong, X, Dotel, R, Dow, KA, Downie, EJ, Drachenberg, JL, Dumitru, A, Dunlop, JC, Dupre, R, Durham, JM, Dutta, D, Edwards, RG, Ehlers, RJ, Fassi, L El, Elaasar, M, and Elouadrhiri, L

Subjects
Nuclear and Plasma Physics, Physical Sciences, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Quantum Physics, Nuclear & Particles Physics, Astronomical sciences, Nuclear and plasma physics, Particle and high energy physics
Abstract

This White Paper presents an overview of the current status and future perspective of QCD research, based on the community inputs and scientific conclusions from the 2022 Hot and Cold QCD Town Meeting. We present the progress made in the last decade toward a deep understanding of both the fundamental structure of the sub-atomic matter of nucleon and nucleus in cold QCD, and the hot QCD matter in heavy ion collisions. We identify key questions of QCD research and plausible paths to obtaining answers to those questions in the near future, hence defining priorities of our research over the coming decades.

Published
2024

7. Contribution of $\pi^0$ Exchange in Elastic Muon-Proton Scattering

Author

Naik, Atharva and Afanasev, Andrei

Subjects
Nuclear Theory, High Energy Physics - Phenomenology
Abstract

The effect of the lepton's mass is significantly enhanced when the beam's energy is on the order of the lepton's mass. In the case of electrons, this corresponds to beam momenta on the order of a few MeV and is negligible in higher energy experiments. In this study, we calculate the differential cross section $d\sigma/ d\Omega$ for the helicity-flip meson exchange interference in elastic muon-proton $(\mu p)$ scattering $\mu^- p \rightarrow \mu^- p$. In particular, we examine the $\pi^0$ meson exchange in the $t$-channel for a longitudinally polarized beam and a transversely polarized target. We demonstrate the contribution to be larger for muons due to the lepton mass difference. Then we construct the corresponding beam-target double-spin asymmetries for the target polarized normal and parallel to the momentum transfer in the Breit frame, and then consider the model dependence of the calculation from the estimation of the $\pi^0 \mu \mu$ vertex. The contribution was found to be on the order of $\sim .15\%$ for muons in the kinematic region of the MUSE experiment., Comment: 10 pages, 7 figures

Published
2024

8. Non-Divergent Spinning Substructures Near Acoustic Field Nodes

Author

Kille, Andrew and Afanasev, Andrei

Subjects
Physics - Classical Physics, Condensed Matter - Other Condensed Matter
Abstract

In this work, we examine the extraordinary behavior of polarization and spin angular momentum (AM) density in the vicinity of longitudinal field zeros in three-dimensional monochromatic acoustic fields. We demonstrate that, as governed by the continuity equation, the velocity fields of arbitrary acoustic sources maintain non-diffractive elliptical polarization structures that enclose longitudinal field zeros, despite having divergent transverse spatial profiles of intensity. Furthermore, embedded in these nonparaxial field contours, for infinite distance, are threads of circular polarization singularities. We illuminate these inherent properties in acoustic vortex fields, dipole arrays, and the famous Young's double slit experiment. Our results reveal novel characteristics of vector sound waves that provide a platform for future studies and applications of structured acoustic waves and chiral acoustic phenomena., Comment: 7 pages, 3 figures

Published
2024

9. Beam Charge Asymmetries for Deeply Virtual Compton Scattering on the Proton at CLAS12

Author

Voutier, E., Burkert, V., Niccolai, S., Paremuzyan, R., Afanasev, A., Alvarado-Galeano, J. -S., Atoui, M., Barion, L., Battaglieri, M., Bernauer, J., Bianconi, A., Bondi, M., Briscoe, W., Camsonne, A., Capobianco, R., Celentano, A., Chatagnon, P., Chetry, T., Ciullo, G., Cole, P., Contalbrigo, M., Costantini, G., Defurne, M., Deur, A., De Vita, R., Diehl, S., Dupré, R., Elouadrhiri, L., Fernando, I., Filippi, A., Forest, T., Girod, F. -X., Gosta, G., Grames, J., Gueye, P., Habet, S., Hattawy, M., Higinbotham, D., Hobart, A., Hyde, C., Joo, K., Kim, A., Klimenko, V., Kubarovsky, V., Leali, M., Lenisa, P., Marchand, D., Marsicano, L., Mascagna, V., Matamoros, D., McCaughan, M., McKinnon, B., Migliorati, S., Mitra, H. S., Movsisyan, A., Muñoz-Camacho, C., Osipenko, M., Ouillon, M., Pappalardo, L., Pasquini, B., Pasyuk, E., Pilleux, N., Poelker, M., Raue, B., Ripani, M., Santos, R., Schmidt, A., Singh, R., Sokhan, D., Spreafico, M., Stoler, P., Strakovsky, I., Taiuti, M., Venturelli, L., Wang, P. -K., Wei, X., Zhao, Z., Collaboration, the CLAS, and Group, the Jefferson Lab Positron Working

Subjects
Nuclear Experiment, High Energy Physics - Experiment
Abstract

The parameterization of the nucleon structure through Generalized Parton Distributions (GPDs) shed a new light on the nucleon internal dynamics. For its direct interpretation, Deeply Virtual Compton Scattering (DVCS) is the golden channel for GPDs investigation. The DVCS process interferes with the Bethe-Heitler (BH) mechanism to constitute the leading order amplitude of the $eN \to eN\gamma$ process. The study of the $ep\gamma$ reaction with polarized positron and electron beams gives a complete set of unique observables to unravel the different contributions to the $ep \gamma$ cross section. This separates the different reaction amplitudes, providing a direct access to their real and imaginary parts which procures crucial constraints on the model dependences and associated systematic uncertainties on GPDs extraction. The real part of the BH-DVCS interference amplitude is particularly sensitive to the $D$-term which parameterizes the Gravitational Form Factors of the nucleon. The separation of the imaginary parts of the interference and DVCS amplitudes provides insights on possible higher-twist effects. We propose to measure the unpolarized and polarized Beam Charge Asymmetries (BCAs) of the $\vec{e}^{\pm}p \to e^{\pm}p \gamma$ process on an unpolarized hydrogen target with {\tt CLAS12}, using polarized positron and electron beams at 10.6 GeV. The azimuthal and $t$-dependences of the unpolarized and polarized BCAs will be measured over a large $(x_B,Q^2)$ phase space using a 100 day run with a luminosity of 0.66$\times 10^{35}$cm$^{-2}\cdot$s$^{-1}$., Comment: Proposal to the Jefferson Lab Program Advisory Committee (PAC51)

Published
2023

10. Strong interaction physics at the luminosity frontier with 22 GeV electrons at Jefferson Lab

Author

Accardi, A, Achenbach, P, Adhikari, D, Afanasev, A, Akondi, CS, Akopov, N, Albaladejo, M, Albataineh, H, Albrecht, M, Almeida-Zamora, B, Amaryan, M, Androić, D, Armstrong, W, Armstrong, DS, Arratia, M, Arrington, J, Asaturyan, A, Austregesilo, A, Avakian, H, Averett, T, Gayoso, C Ayerbe, Bacchetta, A, Balantekin, AB, Baltzell, N, Barion, L, Barry, PC, Bashir, A, Battaglieri, M, Bellini, V, Belov, I, Benhar, O, Benkel, B, Benmokhtar, F, Bentz, W, Bertone, V, Bhatt, H, Bianconi, A, Bibrzycki, L, Bijker, R, Binosi, D, Biswas, D, Boër, M, Boeglin, W, Bogacz, SA, Boglione, M, Bondí, M, Boos, EE, Bosted, P, Bozzi, G, Brash, EJ, Briceño, RA, Brindza, PD, Briscoe, WJ, Brodsky, SJ, Brooks, WK, Burkert, VD, Camsonne, A, Cao, T, Cardman, LS, Carman, DS, Carpinelli, M, Cates, GD, Caylor, J, Celentano, A, Celiberto, FG, Cerutti, M, Chang, L, Chatagnon, P, Chen, C, Chen, J-P, Chetry, T, Christopher, A, Christy, E, Chudakov, E, Cisbani, E, Cloët, IC, Cobos-Martinez, JJ, Cohen, EO, Colangelo, P, Cole, PL, Constantinou, M, Contalbrigo, M, Costantini, G, Cosyn, W, Cotton, C, Courtoy, A, Dusa, S Covrig, Crede, V, Cui, Z-F, D’Angelo, A, Döring, M, Dalton, MM, Danilkin, I, Davydov, M, Day, D, De Fazio, F, De Napoli, M, De Vita, R, Dean, DJ, and Defurne, M

Subjects
Nuclear and Plasma Physics, Particle and High Energy Physics, Synchrotrons and Accelerators, Physical Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Nuclear & Particles Physics, Nuclear and plasma physics, Particle and high energy physics, Synchrotrons and accelerators
Published
2024

11. Radiative Corrections: From Medium to High Energy Experiments

Author

Afanasev, Andrei, Bernauer, Jan C., Blunden, Peter, Blümlein, Johannes, Cline, Ethan W., Friedrich, Jan M., Hagelstein, Franziska, Husek, Tomáš, Kohl, Michael, Myhrer, Fred, Paz, Gil, Schadmand, Susan, Schmidt, Axel, Sharkovska, Vladyslava, Signer, Adrian, Tomalak, Oleksandr, Tomasi-Gustafsson, Egle, Ulrich, Yannick, and Vanderhaeghen, Marc

Subjects
High Energy Physics - Phenomenology, Nuclear Experiment, Nuclear Theory
Abstract

Radiative corrections are crucial for modern high-precision physics experiments, and are an area of active research in the experimental and theoretical community. Here we provide an overview of the state of the field of radiative corrections with a focus on several topics: lepton-proton scattering, QED corrections in deep-inelastic scattering, and in radiative light-hadron decays. Particular emphasis is placed on the two-photon exchange, believed to be responsible for the proton form-factor discrepancy, and associated Monte-Carlo codes. We encourage the community to continue developing theoretical techniques to treat radiative corrections, and perform experimental tests of these corrections., Comment: Review article to be submitted to the EPJ A Topical Collection on radiative corrections. 63 pages, 27 figures, 3 tables

Published
2023

12. Strong Interaction Physics at the Luminosity Frontier with 22 GeV Electrons at Jefferson Lab

Author

Accardi, A., Achenbach, P., Adhikari, D., Afanasev, A., Akondi, C. S., Akopov, N., Albaladejo, M., Albataineh, H., Albrecht, M., Almeida-Zamora, B., Amaryan, M., Androić, D., Armstrong, W., Armstrong, D. S., Arratia, M., Arrington, J., Asaturyan, A., Austregesilo, A., Avagyan, H., Averett, T., Gayoso, C. Ayerbe, Bacchetta, A., Balantekin, A. B., Baltzell, N., Barion, L., Barry, P. C., Bashir, A., Battaglieri, M., Bellini, V., Belov, I., Benhar, O., Benkel, B., Benmokhtar, F, Bentz, W., Bertone, V., Bhatt, H., Bianconi, A., Bibrzycki, L., Bijker, R., Binosi, D., Biswas, D., Boër, M., Boeglin, W., Bogacz, S. A., Boglione, M., Bondí, M., Boos, E. E., Bosted, P., Bozzi, G., Brash, E. J., Briceño, R. A., Brindza, P. D., Briscoe, W. J., Brodsky, S. J, Brooks, W. K., Burkert, V. D., Camsonne, A., Cao, T., Cardman, L. S., Carman, D. S., Carpinelli, M, Cates, G. D., Caylor, J., Celentano, A., Celiberto, F. G., Cerutti, M., Chang, Lei, Chatagnon, P., Chen, C., Chen, J-P, Chetry, T., Christopher, A., Christy, E., Chudakov, E., Cisbani, E., Cloët, I. C., Cobos-Martinez, J. J., Cohen, E. O., Colangelo, P., Cole, P. L., Constantinou, M., Contalbrigo, M., Costantini, G., Cosyn, W., Cotton, C., Courtoy, A., Dusa, S. Covrig, Crede, V., Cui, Z. -F., D'Angelo, A., Döring, M., Dalton, M. M., Danilkin, I., Davydov, M., Day, D., De Fazio, F., De Napoli, M., De Vita, R., Dean, D. J., Defurne, M., Deur, A., Devkota, B., Dhital, S., Di Nezza, P., Diefenthaler, M., Diehl, S., Dilks, C., Ding, M., Djalali, C., Dobbs, S., Dupré, R., Dutta, D., Edwards, R. G., Egiyan, H., Ehinger, L., Eichmann, G., Elaasar, M., Elouadrhiri, L., Alaoui, A. El, Fassi, L. El, Emmert, A., Engelhardt, M., Ent, R., Ernst, D. J, Eugenio, P., Evans, G., Fanelli, C., Fegan, S., Fernández-Ramírez, C., Fernandez, L. A., Fernando, I. P., Filippi, A., Fischer, C. S., Fogler, C., Fomin, N., Frankfurt, L., Frederico, T., Freese, A., Fu, Y., Gamberg, L., Gan, L., Gao, F., Garcia-Tecocoatzi, H., Gaskell, D., Gasparian, A., Gates, K, Gavalian, G., Ghoshal, P. K., Giachino, A., Giacosa, F., Giannuzzi, F., Gilfoyle, G. -P., Girod, F-X, Glazier, D. I., Gleason, C., Godfrey, S., Goity, J. L., Golubenko, A. A., Gonzàlez-Solís, S., Gothe, R. W., Gotra, Y., Griffioen, K., Grocholski, O., Grube, B., Guèye, P., Guo, F. -K., Guo, Y., Guo, L., Hague, T. J., Hammoud, N., Hansen, J. -O., Hattawy, M., Hauenstein, F., Hayward, T., Heddle, D., Heinrich, N., Hen, O., Higinbotham, D. W., Higuera-Angulo, I. M., Blin, A. N. Hiller, Hobart, A., Hobbs, T., Holmberg, D. E, Horn, T., Hoyer, P., Huber, G. M., Hurck, P., Hutauruk, P. T. P., Ilieva, Y., Illari, I., Ireland, D. G, Isupov, E. L., Italiano, A., Jaegle, I., Jarvis, N. S., Jenkins, DJ, Jeschonnek, S., Ji, C-R., Jo, H. S., Jones, M., Jones, R. T., Jones, D. C., Joo, K., Junaid, M., Kageya, T., Kalantarians, N., Karki, A., Karyan, G., Katramatou, A. T., Kay, S. J. D, Kazimi, R., Keith, C. D., Keppel, C., Kerbizi, A., Khachatryan, V., Khanal, A., Khandaker, M., Kim, A., Kinney, E. R., Kohl, M., Kotzinian, A., Kriesten, B. T., Kubarovsky, V., Kubis, B., Kuhn, S. E., Kumar, V., Kutz, T., Leali, M., Lebed, R. F., Lenisa, P., Leskovec, L., Li, S., Li, X., Liao, J., Lin, H. -W., Liu, L., Liuti, S., Liyanage, N., Lu, Y., MacGregor, I. J. D., Mack, D. J., Maiani, L, Mamo, K. A., Mandaglio, G., Mariani, C., Markowitz, P., Marukyan, H., Mascagna, V., Mathieu, V., Maxwell, J., Mazouz, M., McCaughan, M., McKeown, R. D., McKinnon, B., Meekins, D., Melnitchouk, W., Metz, A., Meyer, C. A., Meziani, Z. -E., Mezrag, C., Michaels, R., Miller, G. A., Mineeva, T., Miramontes, A. S., Mirazita, M., Mizutani, K., Mkrtchyan, H., Mkrtchyan, A., Moffit, B., Mohanmurthy, P., Mokeev, V. I., Monaghan, P., Montaña, G., Montgomery, R., Moretti, A., Chàvez, J. M. Morgado, Mosel, U., Movsisyan, A., Musico, P., Nadeeshani, S. A, Nadolsky, P. M., Nakamura, S. X., Nazeer, J., Nefediev, A. V., Neupane, K., Nguyen, D., Niccolai, S., Niculescu, I., Niculescu, G., Nocera, E. R., Nycz, M., Olness, F. I., Ortega, P. G., Osipenko, M., Pace, E., Pandey, B, Pandey, P., Papandreou, Z., Papavassiliou, J., Pappalardo, L. L., Paredes-Torres, G., Paremuzyan, R., Park, S., Parsamyan, B., Paschke, K. D., Pasquini, B., Passemar, E., Pasyuk, E., Patel, T., Paudel, C., Paul, S. J., Peng, J-C., Pentchev, L., Perrino, R., Perry, R. J., Peters, K., Petratos, G. G., Phelps, W., Piasetzky, E., Pilloni, A., Pire, B., Pitonyak, D., Pitt, M. L., Polosa, A. D., Pospelov, M., Postuma, A. C., Poudel, J., Preet, L., Prelovsek, S., Price, J. W., Prokudin, A., Puckett, A. J. R., Pybus, J. R., Qin, S. -X., Qiu, J. -W., Radici, M., Rashidi, H., Rathnayake, A. D, Raue, B. A., Reed, T., Reimer, P. E., Reinhold, J., Richard, J. -M., Rinaldi, M., Ringer, F., Ripani, M., Ritman, J., West, J. Rittenhouse, Rivero-Acosta, A., Roberts, C. D., Rodas, A., Rodini, S., Rodríguez-Quintero, J., Rogers, T. C., Rojo, J., Rossi, P., Rossi, G. C., Salmè, G., Santiesteban, S. N., Santopinto, E., Sargsian, M., Sato, N., Schadmand, S., Schmidt, A., Schmidt, S. M, Schnell, G., Schumacher, R. A., Schweitzer, P., Scimemi, I., Scott, K. C, Seay, D. A, Segovia, J., Semenov-Tian-Shansky, K., Seryi, A., Sharda, A. S, Shepherd, M. R., Shirokov, E. V., Shrestha, S., Shrestha, U., Shvedunov, V. I., Signori, A., Slifer, K. J., Smith, W. A., Somov, A., Souder, P., Sparveris, N., Spizzo, F., Spreafico, M., Stepanyan, S., Stevens, J. R., Strakovsky, I. I., Strauch, S., Strikman, M., Su, S., Sumner, B. C. L., Sun, E., Suresh, M., Sutera, C., Swanson, E. S., Szczepaniak, A. P, Sznajder, P., Szumila-Vance, H., Szymanowski, L., Tadepalli, A. -S., Tadevosyan, V., Tamang, B., Tarasov, V. V., Thiel, A., Tong, X. -B., Tyson, R., Ungaro, M., Urciuoli, G. M., Usman, A., Valcarce, A., Vallarino, S., Vaquera-Araujo, C. A., Venturelli, L., Vera, F., Vladimirov, A., Vossen, A., Wagner, J., Wei, X., Weinstein, L. B., Weiss, C., Williams, R., Winney, D., Wojtsekhowski, B., Wood, M. H., Xiao, T., Xu, S. -S., Ye, Z., Yero, C., Yuan, C. -P., Yurov, M., Zachariou, N., Zhang, Z., Zhao, Z. W., Zhao, Y., Zheng, X., Zhou, X., Ziegler, V., Zihlmann, B., de Paula, W, and de Téramond, G. F.

Subjects
Nuclear Experiment, High Energy Physics - Experiment, High Energy Physics - Phenomenology, Nuclear Theory
Abstract

This document presents the initial scientific case for upgrading the Continuous Electron Beam Accelerator Facility (CEBAF) at Jefferson Lab (JLab) to 22 GeV. It is the result of a community effort, incorporating insights from a series of workshops conducted between March 2022 and April 2023. With a track record of over 25 years in delivering the world's most intense and precise multi-GeV electron beams, CEBAF's potential for a higher energy upgrade presents a unique opportunity for an innovative nuclear physics program, which seamlessly integrates a rich historical background with a promising future. The proposed physics program encompass a diverse range of investigations centered around the nonperturbative dynamics inherent in hadron structure and the exploration of strongly interacting systems. It builds upon the exceptional capabilities of CEBAF in high-luminosity operations, the availability of existing or planned Hall equipment, and recent advancements in accelerator technology. The proposed program cover various scientific topics, including Hadron Spectroscopy, Partonic Structure and Spin, Hadronization and Transverse Momentum, Spatial Structure, Mechanical Properties, Form Factors and Emergent Hadron Mass, Hadron-Quark Transition, and Nuclear Dynamics at Extreme Conditions, as well as QCD Confinement and Fundamental Symmetries. Each topic highlights the key measurements achievable at a 22 GeV CEBAF accelerator. Furthermore, this document outlines the significant physics outcomes and unique aspects of these programs that distinguish them from other existing or planned facilities. In summary, this document provides an exciting rationale for the energy upgrade of CEBAF to 22 GeV, outlining the transformative scientific potential that lies within reach, and the remarkable opportunities it offers for advancing our understanding of hadron physics and related fundamental phenomena., Comment: Updates to the list of authors; Preprint number changed from theory to experiment; Updates to sections 4 and 6, including additional figures

Published
2023

13. Non-Diffracting Polarisation Features around Far-Field Zeros of Electromagnetic Radiation

Author

Vernon, Alex J., Kille, Andrew, Rodríguez-Fortuño, Francisco J., and Afanasev, Andrei

Subjects
Physics - Optics, Quantum Physics
Abstract

Light from any physical source diffracts over space, as spherical wavefronts grow and energy density is spread out. Diffractive effects pose fundamental limits to light-based technologies, including communications, spectroscopy, and metrology. Polarisation becomes paraxial in the far field limit and, by ignoring longitudinal field components, the rich physics of non-paraxial fields which exist in near-fields or a beam's tight focus are lost. The longitudinal field cannot, however, be ignored when transverse field components vanish (in a transverse field zero) and carry a small non-paraxial region to infinity. We show that a transverse field zero is always accompanied by non-diffracting polarisation structures, whose geometries are independent of the distance to the source, including an enclosing intensity ratio tube, and parallel, non-diverging polarisation singularities. We illustrate these features in multipole radiation and in double slit interference, two examples which have time-fixed transverse field zeros. Non-diffracting structures with changing position are coupled to time-varying zeros, which are present in all far field radiation., Comment: 13 pages, 3 figures; journal version

Published
2023
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14. Statistical analysis of technical specifications for non-reversible plate vibrators with different types of engines

Author

M. A. Afanasev and I. S. Tyuremnov

Subjects
soil, vibration, compaction, plate compactor, forward plate compactor, mass, oscillation frequency, exciting force, relative exciting force, engine power, base plate width, statistical analysis, Transportation engineering, TA1001-1280
Abstract

Introduction. Forward plate compactors are surface soil compaction machines with a flat operating device, which are usually equipped with a single-shaft vibration exciter. Forward plate compactors may be driven by gasoline, diesel or electric engines. When designing and modernizing forward plate compactors, a problem of technical specifications justification may arise, including such parameters as exciting force, vibration exciter oscillation frequency, engine power, base plate width, etc. This statistical analysis of plate compactors with different types of engines was carried out to summarize manufacturers practices and reveal correlations between the technical specifications of forward plate compactors.Materials and methods. This research is based on the information presented on the official websites of forward plate compactors manufacturers and their dealers. 644 models of forward plate compactors were scrutinized. Regression equations and correlation coefficients were derived using Microsoft Excel software.Results. Parameters ranges for forward plate compactors with different types of engines were determined. Regression equations of correlations between oscillation frequency, exciting force, engine power, base plate width, relative exciting force and mass of forward plate compactors with different types of engines were derived, as well as the corresponding correlation coefficients. It was revealed, that most parameters have low or very low correlation coefficient, regardless of the engine type.Conclusion. The ranges of the technical specifications of diesel and gasoline forward plate compactors are quite close to each other. The parameters ranges of electric plate compactors, in most cases, are beyond the ranges of gasoline and diesel plate compactors. Low correlation coefficients and a large scatter of parameters indicate that manufacturers do not have a methodology for justification of the technical specifications of forward plate compactors. Results of the study may be used when clarify ranges of parameters and formulate requirements for a mathematical model of vibration plates behavior.

Published
2024
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15. Dysregulation of Transposon Transcription Profiles in Cancer Cells Resembles That of Embryonic Stem Cells

Author

Anna I. Solovyeva, Roman V. Afanasev, Marina A. Popova, and Natella I. Enukashvily

Subjects
transposons, retroviruses, embryonic stem cells, pluripotency, repeatome, tumor, Biology (General), QH301-705.5
Abstract

Transposable elements (TEs) comprise a substantial portion of the mammalian genome, with potential implications for both embryonic development and cancer. This study aimed to characterize the expression profiles of TEs in embryonic stem cells (ESCs), cancer cell lines, tumor tissues, and the tumor microenvironment (TME). We observed similarities in TE expression profiles between cancer cells and ESCs, suggesting potential parallels in regulatory mechanisms. Notably, four TE RNAs (HERVH, LTR7, HERV-Fc1, HERV-Fc2) exhibited significant downregulation across cancer cell lines and tumor tissues compared to ESCs, highlighting potential roles in pluripotency regulation. The strong up-regulation of the latter two TEs (HERV-Fc1, HERV-Fc2) in ESCs has not been previously demonstrated and may be a first indication of their role in the regulation of pluripotency. Conversely, tandemly repeated sequences (MSR1, CER, ALR) showed up-regulation in cancer contexts. Moreover, a difference in TE expression was observed between the TME and the tumor bulk transcriptome, with distinct dysregulated TE profiles. Some TME-specific TEs were absent in normal tissues, predominantly belonging to LTR and L1 retrotransposon families. These findings not only shed light on the regulatory roles of TEs in both embryonic development and cancer but also suggest novel targets for anti-cancer therapy. Understanding the interplay between cancer cells and the TME at the TE level may pave the way for further research into therapeutic interventions.

Published
2024
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16. On 3-generated 6-transposition groups

Author

Afanasev, Vsevolod A. and Mamontov, Andrey

Subjects
Mathematics - Group Theory
Abstract

We study $6$-transposition groups, i.e. groups generated by a normal set of involutions $D$, such that the order of the product of any two elements from $D$ does not exceed $6$. We classify most of the groups generated by $3$ elements from $D$, two of which commute, and prove they are finite., Comment: 12 pages

Published
2023

17. The Present and Future of QCD

Author

Achenbach, P., Adhikari, D., Afanasev, A., Afzal, F., Aidala, C. A., Al-bataineh, A., Almaalol, D. K., Amaryan, M., Androić, D., Armstrong, W. R., Arratia, M., Arrington, J., Asaturyan, A., Aschenauer, E. C., Atac, H., Avakian, H., Averett, T., Gayoso, C. Ayerbe, Bai, X., Barish, K. N., Barnea, N., Basar, G., Battaglieri, M., Baty, A. A., Bautista, I., Bazilevsky, A., Beattie, C., Behera, S. C., Bellini, V., Bellwied, R., Benesch, J. F., Benmokhtar, F., Bernardes, C. A., Bernauer, J. C., Bhatt, H., Bhatta, S., Boer, M., Boettcher, T. J., Bogacz, S. A., Bossi, H. J., Brandenburg, J. D., Brash, E. J., Briceño, R. A., Briscoe, W. J., Brodsky, S. J., Brown, D. A., Burkert, V. D., Caines, H., Cali, I. A., Camsonne, A., Carman, D. S., Caylor, J., Cerci, S., Llatas, M. Chamizo, Chatterjee, S., Chen, J. P., Chen, Y., Chen, Y. -C., Chien, Y. -T., Chou, P. -C., Chu, X., Chudakov, E., Cline, E., Cloët, I. C., Cole, P. L., Connors, M. E., Constantinou, M., Cosyn, W., Dusa, S. Covrig, Cruz-Torres, R., D'Alesio, U., da Silva, C., Davoudi, Z., Dean, C. T., Dean, D. J., Demarteau, M., Deshpande, A., Detmold, W., Deur, A., Devkota, B. R., Dhital, S., Diefenthaler, M., Dobbs, S., Döring, M., Dong, X., Dotel, R., Dow, K. A., Downie, E. J., Drachenberg, J. L., Dumitru, A., Dunlop, J. C., Dupre, R., Durham, J. M., Dutta, D., Edwards, R. G., Ehlers, R. J., Fassi, L. El, Elaasar, M., Elouadrhiri, L., Engelhardt, M., Ent, R., Esumi, S., Evdokimov, O., Eyser, O., Fanelli, C., Fatemi, R., Fernando, I. P., Flor, F. A., Fomin, N., Frawley, A. D., Frederico, T., Fries, R. J., Gal, C., Gamage, B. R., Gamberg, L., Gao, H., Gaskell, D., Geurts, F., Ghandilyan, Y., Ghimire, N., Gilman, R., Gleason, C., Gnanvo, K., Gothe, R. W., Greene, S. V., Grießhammer, H. W., Grossberndt, S. K., Grube, B., Hackett, D. C., Hague, T. J., Hakobyan, H., Hansen, J. -O., Hatta, Y., Hattawy, M., Havener, L. B., Hen, O., Henry, W., Higinbotham, D. W., Hobbs, T. J., Hodges, A. M., Holmstrom, T., Hong, B., Horn, T., Howell, C. R., Huang, H. Z., Huang, M., Huang, S., Huber, G. M., Hyde, C. E., Isupov, E. L., Jacobs, P. M., Jalilian-Marian, J., Jentsch, A., Jheng, H., Ji, C. -R., Ji, X., Jia, J., Jones, D. C., Jones, M. K., Kalantarians, N., Kalicy, G., Kang, Z. B., Karthein, J. M., Keller, D., Keppel, C., Khachatryan, V., Kharzeev, D. E., Kim, H., Kim, M., Kim, Y., King, P. M., Kinney, E., Klein, S. R., Ko, H. S., Koch, V., Kohl, M., Kovchegov, Y. V., Krintiras, G. K., Kubarovsky, V., Kuhn, S. E., Kumar, K. S., Kutz, T., Lajoie, J. G., Lauret, J., Lavrukhin, I., Lawrence, D., Lee, J. H., Lee, K., Lee, S., Lee, Y. -J., Li, S., Li, W., Li, Xiaqing, Li, Xuan, Liao, J., Lin, H. -W., Lisa, M. A., Liu, K. -F., Liu, M. X., Liu, T., Liuti, S., Liyanage, N., Llope, W. J., Loizides, C., Longo, R., Lorenzon, W., Lunkenheimer, S., Luo, X., Ma, R., McKinnon, B., Meekins, D. G., Mehtar-Tani, Y., Melnitchouk, W., Metz, A., Meyer, C. A., Meziani, Z. -E., Michaels, R., Michel, J. K. L., Milner, R. G., Mkrtchyan, H., Mohanmurthy, P., Mohanty, B., Mokeev, V. I., Moon, D. H., Mooney, I. A., Morningstar, C., Morrison, D. P., Müller, B., Mukherjee, S., Mulligan, J., Camacho, C. Munoz, Quijada, J. A. Murillo, Murray, M. J., Nadeeshani, S. A., Nadel-Turonski, P., Nam, J. D., Nattrass, C. E., Nijs, G., Noronha, J., Noronha-Hostler, J., Novitzky, N., Nycz, M., Olness, F. I., Osborn, J. D., Pak, R., Pandey, B., Paolone, M., Papandreou, Z., Paquet, J. -F., Park, S., Paschke, K. D., Pasquini, B., Pasyuk, E., Patel, T., Patton, A., Paudel, C., Peng, C., Peng, J. C., Da Costa, H. Pereira, Perepelitsa, D. V., Peters, M. J., Petreczky, P., Pisarski, R. D., Pitonyak, D., Ploskon, M. A., Posik, M., Poudel, J., Pradhan, R., Prokudin, A., Pruneau, C. A., Puckett, A. J. R., Pujahari, P., Putschke, J., Pybus, J. R., Qiu, J. -W., Rajagopal, K., Ratti, C., Read, K. F., Reed, R., Richards, D. G., Riedl, C., Ringer, F., Rinn, T., West, J. Rittenhouse, Roche, J., Rodas, A., Roland, G., Romero-López, F., Rossi, P., Rostomyan, T., Ruan, L., Ruimi, O. M., Saha, N. R., Sahoo, N. R., Sakaguchi, T., Salazar, F., Salgado, C. W., Salmè, G., Salur, S., Santiesteban, S. N., Sargsian, M. M., Sarsour, M., Sato, N., Satogata, T., Sawada, S., Schäfer, T., Scheihing-Hitschfeld, B., Schenke, B., Schindler, S. T., Schmidt, A., Seidl, R., Shabestari, M. H., Shanahan, P. E., Shen, C., Sheng, T. -A., Shepherd, M. R., Sickles, A. M., Sievert, M. D., Smith, K. L., Song, Y., Sorensen, A., Souder, P. A., Sparveris, N., Srednyak, S., Leiton, A. G. Stahl, Stasto, A. M., Steinberg, P., Stepanyan, S., Stephanov, M., Stevens, J. R., Stewart, D. J., Stewart, I. W., Stojanovic, M., Strakovsky, I., Strauch, S., Strickland, M., Cerci, D. Sunar, Suresh, M., Surrow, B., Syritsyn, S., Szczepaniak, A. P., Tadepalli, A. S., Tang, A. H., Takaki, J. D. Tapia, Tarnowsky, T. J., Tawfik, A. N., Taylor, M. I., Tennant, C., Thiel, A., Thomas, D., Tian, Y., Timmins, A. R., Tribedy, P., Tu, Z., Tuo, S., Ullrich, T., Umaka, E., Upton, D. W., Vary, J. P., Velkovska, J., Venugopalan, R., Vijayakumar, A., Vitev, I., Vogelsang, W., Vogt, R., Vossen, A., Voutier, E., Vovchenko, V., Walker-Loud, A., Wang, F., Wang, J., Wang, X., Wang, X. -N., Weinstein, L. B., Wenaus, T. J., Weyhmiller, S., Wissink, S. W., Wojtsekhowski, B., Wong, C. P., Wood, M. H., Wunderlich, Y., Wyslouch, B., Xiao, B. W., Xie, W., Xiong, W., Xu, N., Xu, Q. H., Xu, Z., Yaari, D., Yao, X., Ye, Z., Ye, Z. H., Yero, C., Yuan, F., Zajc, W. A., Zhang, C., Zhang, J., Zhao, F., Zhao, Y., Zhao, Z. W., Zheng, X., Zhou, J., and Zurek, M.

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Experiment, Nuclear Experiment, Nuclear Theory
Abstract

This White Paper presents the community inputs and scientific conclusions from the Hot and Cold QCD Town Meeting that took place September 23-25, 2022 at MIT, as part of the Nuclear Science Advisory Committee (NSAC) 2023 Long Range Planning process. A total of 424 physicists registered for the meeting. The meeting highlighted progress in Quantum Chromodynamics (QCD) nuclear physics since the 2015 LRP (LRP15) and identified key questions and plausible paths to obtaining answers to those questions, defining priorities for our research over the coming decade. In defining the priority of outstanding physics opportunities for the future, both prospects for the short (~ 5 years) and longer term (5-10 years and beyond) are identified together with the facilities, personnel and other resources needed to maximize the discovery potential and maintain United States leadership in QCD physics worldwide. This White Paper is organized as follows: In the Executive Summary, we detail the Recommendations and Initiatives that were presented and discussed at the Town Meeting, and their supporting rationales. Section 2 highlights major progress and accomplishments of the past seven years. It is followed, in Section 3, by an overview of the physics opportunities for the immediate future, and in relation with the next QCD frontier: the EIC. Section 4 provides an overview of the physics motivations and goals associated with the EIC. Section 5 is devoted to the workforce development and support of diversity, equity and inclusion. This is followed by a dedicated section on computing in Section 6. Section 7 describes the national need for nuclear data science and the relevance to QCD research., Comment: QCD Town Meeting White Paper, as submitted to 2023 NSAC LRP committee on Feb. 28, 2023

Published
2023
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18. Quantum Information Science and Technology for Nuclear Physics. Input into U.S. Long-Range Planning, 2023

Author

Beck, Douglas, Carlson, Joseph, Davoudi, Zohreh, Formaggio, Joseph, Quaglioni, Sofia, Savage, Martin, Barata, Joao, Bhattacharya, Tanmoy, Bishof, Michael, Cloet, Ian, Delgado, Andrea, DeMarco, Michael, Fink, Caleb, Florio, Adrien, Francois, Marianne, Grabowska, Dorota, Hoogerheide, Shannon, Huang, Mengyao, Ikeda, Kazuki, Illa, Marc, Joo, Kyungseon, Kharzeev, Dmitri, Kowalski, Karol, Lai, Wai Kin, Leach, Kyle, Loer, Ben, Low, Ian, Martin, Joshua, Moore, David, Mehen, Thomas, Mueller, Niklas, Mulligan, James, Mumm, Pieter, Pederiva, Francesco, Pisarski, Rob, Ploskon, Mateusz, Reddy, Sanjay, Rupak, Gautam, Singh, Hersh, Singh, Maninder, Stetcu, Ionel, Stryker, Jesse, Szypryt, Paul, Valgushev, Semeon, VanDevender, Brent, Watkins, Samuel, Wilson, Christopher, Yao, Xiaojun, Afanasev, Andrei, Balantekin, Akif Baha, Baroni, Alessandro, Bunker, Raymond, Chakraborty, Bipasha, Chernyshev, Ivan, Cirigliano, Vincenzo, Clark, Benjamin, Dhiman, Shashi Kumar, Du, Weijie, Dutta, Dipangkar, Edwards, Robert, Flores, Abraham, Galindo-Uribarri, Alfredo, Ruiz, Ronald Fernando Garcia, Gueorguiev, Vesselin, Guo, Fanqing, Hansen, Erin, Hernandez, Hector, Hattori, Koichi, Hauke, Philipp, Hjorth-Jensen, Morten, Jankowski, Keith, Johnson, Calvin, Lacroix, Denis, Lee, Dean, Lin, Huey-Wen, Liu, Xiaohui, Llanes-Estrada, Felipe J., Looney, John, Lukin, Misha, Mercenne, Alexis, Miller, Jeff, Mottola, Emil, Mueller, Berndt, Nachman, Benjamin, Negele, John, Orrell, John, Patwardhan, Amol, Phillips, Daniel, Poole, Stephen, Qualters, Irene, Rumore, Mike, Schaefer, Thomas, Scott, Jeremy, Singh, Rajeev, Vary, James, Galvez-Viruet, Juan-Jose, Wendt, Kyle, Xing, Hongxi, Yang, Liang, Young, Glenn, and Zhao, Fanyi

Subjects
Nuclear Experiment, Nuclear Theory, Quantum Physics
Abstract

In preparation for the 2023 NSAC Long Range Plan (LRP), members of the Nuclear Science community gathered to discuss the current state of, and plans for further leveraging opportunities in, QIST in NP research at the Quantum Information Science for U.S. Nuclear Physics Long Range Planning workshop, held in Santa Fe, New Mexico on January 31 - February 1, 2023. The workshop included 45 in-person participants and 53 remote attendees. The outcome of the workshop identified strategic plans and requirements for the next 5-10 years to advance quantum sensing and quantum simulations within NP, and to develop a diverse quantum-ready workforce. The plans include resolutions endorsed by the participants to address the compelling scientific opportunities at the intersections of NP and QIST. These endorsements are aligned with similar affirmations by the LRP Computational Nuclear Physics and AI/ML Workshop, the Nuclear Structure, Reactions, and Astrophysics LRP Town Hall, and the Fundamental Symmetries, Neutrons, and Neutrinos LRP Town Hall communities., Comment: A white paper for the 2023 nuclear physics long-range planning activity, emerging from the workshop "Quantum Information Science for U.S. Nuclear Physics Long Range Planning'', held in Santa Fe, New Mexico on January 31 - February 1, 2023. 26 pages with 7 figures

Published
2023

19. Precision studies of QCD in the low energy domain of the EIC

Author

Burkert, VD, Elouadrhiri, L, Afanasev, A, Arrington, J, Contalbrigo, M, Cosyn, W, Deshpande, A, Glazier, DI, Ji, X, Liuti, S, Oh, Y, Richards, D, Satogata, T, Vossen, A, Abdolmaleki, H, Albataineh, A, Aidala, CA, Alexandrou, C, Avagyan, H, Bacchetta, A, Baker, M, Benmokhtar, F, Bernauer, JC, Bissolotti, C, Briscoe, W, Byers, D, Cao, Xu, Carlson, CE, Cichy, K, Cloet, IC, Cocuzza, C, Cole, PL, Constantinou, M, Courtoy, A, Dahiyah, H, Dehmelt, K, Diehl, S, Dilks, C, Djalali, C, Dupré, R, Dusa, SC, El-Bennich, B, Fassi, L El, Frederico, T, Freese, A, Gamage, BR, Gamberg, L, Ghoshal, RR, Girod, FX, Goncalves, VP, Gotra, Y, Guo, FK, Guo, X, Hattawy, M, Hatta, Y, Hayward, T, Hen, O, Huber, GM, Hyde, C, Isupov, EL, Jacak, B, Jacobs, W, Jentsch, A, Ji, CR, Joosten, S, Kalantarians, N, Kang, Z, Kim, A, Klein, S, Kriesten, B, Kumano, S, Kumar, A, Kumericki, K, Kuchera, M, Lai, WK, Li, Jin, Li, Shujie, Li, W, Li, X, Lin, H-W, Liu, KF, Liu, Xiaohui, Markowitz, P, Mathieu, V, McEneaney, M, Mekki, A, de Melo, JPBC, Meziani, ZE, Milner, R, Mkrtchyan, H, Mochalov, V, Mokeev, V, Morozov, V, Moutarde, H, Murray, M, Mtingwa, S, Nadel-Turonski, P, Okorokov, VA, Onyie, E, and Pappalardo, LL

Subjects
Particle and High Energy Physics, Physical Sciences, Affordable and Clean Energy, EIC, QCD, Spin, Mass, Pressure, GPDs, NSD-Nuclear Theory, NSD-Relativistic Nuclear Collisions, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Nuclear & Particles Physics, Nuclear and plasma physics, Particle and high energy physics
Abstract

This White Paper aims at highlighting the important benefits in the science reach of the EIC. High luminosity operation is generally desirable, as it enables producing and harvesting scientific results in a shorter time period. It becomes crucial for programs that would require many months or even years of operation at lower luminosity.

Published
2023

20. ESFRAD. FORTRAN code for calculation of QED corrections to polarized ep-scattering by the electron structure function method

Author

Afanasev, A., Akushevich, I., Ilyichev, A., and Merenkov, N.

Subjects
High Energy Physics - Phenomenology
Abstract

The main features of the electron structure function method for calculations of the higher order QED radiative effects to polarized deep-inelastic ep-scattering are presented. A new FORTRAN code ESFRAD based on this method was developed. A detailed quantitative comparison between the results of ESFRAD and other methods implemented in the codes POLRAD and RADGEN for calculation of the higher order radiative corrections is performed., Comment: Contribution to: 17th International Workshop on High-Energy Physics and Quantum Field Theory (QFTHEP 2003), 154-161

Published
2022

21. Precision Studies of QCD in the Low Energy Domain of the EIC

Author

Burkert, V., Elouadrhiri, L., Afanasev, A., Arrington, J., Contalbrigo, M., Cosyn, W., Deshpande, A., Glazier, D., Ji, X., Liuti, S., Oh, Y., Richards, D., Satogata, T., and Vossen, A.

Subjects
Nuclear Experiment, High Energy Physics - Experiment, High Energy Physics - Lattice, High Energy Physics - Phenomenology, Nuclear Theory
Abstract

The manuscript focuses on the high impact science of the EIC with objective to identify a portion of the science program for QCD precision studies that requires or greatly benefits from high luminosity and low center-of-mass energies. The science topics include (1) Generalized Parton Distributions, 3D imagining and mechanical properties of the nucleon (2) mass and spin of the nucleon (3) Momentum dependence of the nucleon in semi-inclusive deep inelastic scattering (4) Exotic meson spectroscopy (5) Science highlights of nuclei (6) Precision studies of Lattice QCD in the EIC era (7) Science of far-forward particle detection (8) Radiative effects and corrections (9) Artificial Intelligence (10) EIC interaction regions for high impact science program with discovery potential. This paper documents the scientific basis for supporting such a program and helps to define the path toward the realization of the second EIC interaction region., Comment: 103 pages,47 figures

Published
2022
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22. Topology and Polarization of Optical Vortex Fields from Atomic Phased Arrays

Author

Wang, Hao and Afanasev, Andrei

Subjects
Quantum Physics, Physics - Atomic Physics
Abstract

We developed theoretical formalism for generation of optical vortices by phased arrays of atoms. Using Jacobi-Anger expansion, we demonstrate the resulting field topology and determine the least number of array elements necessary for generation of vortices with a given topological charge. Vector vortices were considered, taking into account both spin and orbital angular momenta of electromagnetic fields. It was found that for the vortex field near the phase singularity, the transverse-position dependence of 3D polarization parameters is independent of the distance to the radiation source., Comment: 10 pages, 7 figures

Published
2022
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24. Experimental Study of Hydrogen Synthesis under Conditions of a Natural Gas Reservoir

Author

E. D. Mukhina, P. A. Afanasev, A. Z. Mukhametdinova, A. G. Askarova, E. Y. Popov, and A. N. Cheremisin

Subjects
hydrogen, steam reforming, gas reservoir, natural gas, methane, Geology, QE1-996.5
Abstract

This research discusses issues related to hydrogen production, a promising source of “green” energy. Various methods of hydrogen production are considered, along with a new technology for hydrogen synthesis in natural gas reservoirs that has never been implemented before. At the same time, existing published experimental studies indicate a high probability of hydrogen synthesis when steam is injected into oil reservoirs. However, considering that oil is the primary raw material for hydrogen generation, there is high uncertainty about the success of the process in natural gas fields in the absence of residual oil. The experimental study presented in this work aims to justify the possibility of hydrogen synthesis under conditions of a natural gas reservoir. Specially designed reactors filled with different models of porous media, including the rock of a real gas field, are used for the physical modeling of the process. The process simulates injecting steam into a preheated porous medium mixed with hydrocarbon gas, specifically methane, at a reservoir pressure of 80 atm. The main variable parameters, aside from the type of porous medium, are the temperature and the steam-tomethane ratio in the system. The article presents the results of a series of nine experiments. The gas products were analyzed using a gas chromatograph. At the same time, the properties of rock samples were investigated after each experiment. The results of the experiments reveal patterns of concentration of hydrogen produced depending on the parameters, indicating the high potential of hydrogen synthesis technology under reservoir conditions in natural gas fields.

Published
2024
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25. Superkicks and momentum density tests via micromanipulation

Author

Afanasev, Andrei, Carlson, Carl E., and Mukherjee, Asmita

Subjects
Physics - Optics, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology, Quantum Physics
Abstract

There is an unsettled problem in choosing the correct expressions for the local momentum density and angular momentum density of electromagnetic fields (or indeed, of any non-scalar field). If one only examines plane waves, the problem is moot, as the known possible expressions all give the same result. The momentum and angular momentum density expressions are generally obtained from the energy-momentum tensor, in turn obtained from a Lagrangian. The electrodynamic expressions obtained by the canonical procedure are not the same as the symmetric Belinfante reworking. For the interaction of matter with structured light, for example, twisted photons, this is important; there are drastically different predictions for forces and angular momenta induced on small test objects. We show situations where the two predictions can be checked, with numerical estimates of the size of the effects., Comment: Proceedings version of talk by CEC at the conference on Optical Trapping and Optical Manipulation, SPIE Optics and Photonics, San Diego, 21-25 August 2022. 6 pages, 5 figures

Published
2022

26. Non-Diffractive 3D Polarisation Features of Optical Vortex Beams

Author

Afanasev, Andrei, Kingsley-Smith, Jack J., Rodríguez-Fortuño, Francisco J., and Zayats, Anatoly V.

Subjects
Physics - Optics
Abstract

Vector optical vortices exhibit complex polarisation patterns due to the interplay between spin and orbital angular momenta. Here we demonstrate, both analytically and with simulations, that certain polarisation features of optical vortex beams maintain constant transverse spatial dimensions independently of beam divergence due to diffraction. These polarisation features appear in the vicinity of the phase singularity and are associated with the presence of longitudinal electric fields. The predicted effect may prove important in metrology and high resolution imaging applications., Comment: 18 pages, 4 figures; revised text and figures

Published
2022

27. Vorticity of Twisted Spinor Fields

Author

Afanasev, Andrei, Carlson, Carl E., and Mukherjee, Asmita

Subjects
Quantum Physics, High Energy Physics - Phenomenology
Abstract

Spinor fields with a vortex structure in free space that allow them to have arbitrary integer orbital angular momentum along the direction of motion have been studied for some time. Relatively new is the observation in a certain context that the vortex center of this field structure is, unlike a classical whirlpool, not singular. We point out that there are several ways to calculate the local velocity of the spinor field and that all but one show a singular vorticity at the vortex line. That one, using the Dirac bilinear current with no derivatives, is the only one so far (to our knowledge) studied in the literature in this context and we further show how to understand an apparent conflict in the existing results., Comment: 6 pages, no figures

Published
2022

28. The Present and Future of QCD

Author

Achenbach, P, Adhikari, D, Afanasev, A, Afzal, F, Aidala, CA, Al-bataineh, A, Almaalol, DK, Amaryan, M, Androić, D, Armstrong, WR, Arratia, M, Arrington, J, Asaturyan, A, Aschenauer, EC, Atac, H, Avakian, H, Averett, T, Gayoso, C Ayerbe, Bai, X, Barish, KN, Barnea, N, Basar, G, Battaglieri, M, Baty, AA, Bautista, I, Bazilevsky, A, Beattie, C, Behera, SC, Bellini, V, Bellwied, R, Benesch, JF, Benmokhtar, F, Bernardes, CA, Bernauer, JC, Bhatt, H, Bhatta, S, Boer, M, Boettcher, TJ, Bogacz, SA, Bossi, HJ, Brandenburg, JD, Brash, EJ, Briceño, RA, Briscoe, WJ, Brodsky, SJ, Brown, DA, Burkert, VD, Caines, H, Cali, IA, Camsonne, A, Carman, DS, Caylor, J, Cerci, S, Llatas, M Chamizo, Chatterjee, S, Chen, JP, Chen, Y, Chen, Y-C, Chien, Y-T, Chou, P-C, Chu, X, Chudakov, E, Cline, E, Cloët, IC, Cole, PL, Connors, ME, Constantinou, M, Cosyn, W, Dusa, S Covrig, Cruz-Torres, R, D'Alesio, U, Silva, C da, Davoudi, Z, Dean, CT, Dean, DJ, Demarteau, M, Deshpande, A, Detmold, W, Deur, A, Devkota, BR, Dhital, S, Diefenthaler, M, Dobbs, S, Döring, M, Dong, X, Dotel, R, Dow, KA, Downie, EJ, Drachenberg, JL, Dumitru, A, Dunlop, JC, Dupre, R, Durham, JM, Dutta, D, Edwards, RG, Ehlers, RJ, Fassi, L El, Elaasar, M, Elouadrhiri, L, and Engelhardt, M

Subjects
hep-ph, hep-ex, nucl-ex, nucl-th
Abstract

This White Paper presents the community inputs and scientific conclusionsfrom the Hot and Cold QCD Town Meeting that took place September 23-25, 2022 atMIT, as part of the Nuclear Science Advisory Committee (NSAC) 2023 Long RangePlanning process. A total of 424 physicists registered for the meeting. Themeeting highlighted progress in Quantum Chromodynamics (QCD) nuclear physicssince the 2015 LRP (LRP15) and identified key questions and plausible paths toobtaining answers to those questions, defining priorities for our research overthe coming decade. In defining the priority of outstanding physicsopportunities for the future, both prospects for the short (~ 5 years) andlonger term (5-10 years and beyond) are identified together with thefacilities, personnel and other resources needed to maximize the discoverypotential and maintain United States leadership in QCD physics worldwide. ThisWhite Paper is organized as follows: In the Executive Summary, we detail theRecommendations and Initiatives that were presented and discussed at the TownMeeting, and their supporting rationales. Section 2 highlights major progressand accomplishments of the past seven years. It is followed, in Section 3, byan overview of the physics opportunities for the immediate future, and inrelation with the next QCD frontier: the EIC. Section 4 provides an overview ofthe physics motivations and goals associated with the EIC. Section 5 is devotedto the workforce development and support of diversity, equity and inclusion.This is followed by a dedicated section on computing in Section 6. Section 7describes the national need for nuclear data science and the relevance to QCDresearch.

Published
2023

29. The Cross-Evaluation Crux for Computational Phylogenetic Linguistics

Author

Afanasev, Ilia, Brilly, Mitja, Advisory Editor, Hoalst-Pullen, Nancy, Advisory Editor, Leitner, Michael, Advisory Editor, Patterson, Mark W., Advisory Editor, Veress, Márton, Advisory Editor, Bakaev, Maxim, editor, Bolgov, Radomir, editor, Chugunov, Andrei V., editor, Pereira, Roberto, editor, R, Elakkiya, editor, and Zhang, Wei, editor

Published
2024
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34. Charge-asymmetric correlations in elastic lepton- and antilepton-proton scattering from real photon emission

Author

Afanasev, A. and Ilyichev, A.

Subjects
High Energy Physics - Phenomenology
Abstract

Observation of charge asymmetry by comparing electron and positron, or muon and anti-muon, scattering on a hadronic target presently serves as an experimental tool to study two-photon exchange effects. In addition to two-photon exchange, real photon emission also contributes to the charge asymmetry. We present a theoretical formalism, explicit expressions, and a numerical analysis of hard photon emission for the charge asymmetry in lepton- and antilepton-proton scattering. Different kinematic conditions are considered, namely, either fixed transferred momentum squared or a fixed lepton scattering angle. The infrared divergence from real photon emission is treated by the Bardin-Shumeiko technique and canceled with the soft part of the two-photon exchange contribution extracted and calculated using Tsai approach. All final expressions are obtained beyond the ultrarelativistic approximation with respect to the lepton mass that allows to evaluate numerically of the considered effects not only for ultrarelativistic leptons (JLab) and but for moderately relativistic (MUSE) kinematics, too., Comment: 17 pages, 7 figures

Published
2022
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35. Superkicks and the photon angular and linear momentum density

Author

Afanasev, Andrei, Carlson, Carl E., and Mukherjee, Asmita

Subjects
Quantum Physics, Physics - Optics
Abstract

We address a problem of proper definition of momentum density for spatially structured electromagnetic fields. We show that the expressions for the momentum and angular momentum obtained locally are not the same when one uses the canonical energy-momentum tensor instead of the symmetric Belinfante energy-momentum tensor in electrodynamics. This has important consequences for interaction of matter with structured light, for example, twisted photons; and would give drastically different results for forces and angular momenta induced on small test objects. We show, with numerical estimates of the size of the effects, situations where the canonical and symmetrized forms induce very different torques or (superkick) recoil momenta on small objects or atomic rotors, over a broad range of circumstances., Comment: 5 pages, 4 figures

Published
2022
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37. Plasmon localization and giant fields in holographic metasurface for SERS sensors

Author

Sarychev, Andrey K., Ivanov, Andrey, Lagarkov, Andrey N., Barbillon, Gregory, Bykov, Igor, Ryzhikov, Ilya, Afanasev, Konstantin, Bakholdin, Nikita, Mikhailov, Mikhail, Smyk, Alexander, Shurygin, Alexander, and Shalygin, Alexander

Subjects
Physics - Optics
Abstract

We present SERS-active metal holographic metasurfaces fabricated from metal periodical nanograting deposited on a dielectric substrate. The metasurface consists of a modulated dielectric, which is covered by a thin silver layer. The metasurface operates as an open plasmon resonator. The theory of plasmons excited in the open resonator formed by a metal nanograting is presented. The large local electromagnetic field is predicted for optical frequencies. The excitation of plasmons is experimentally demonstrated in the metasurface designed on a 4-inch Si wafer. The enhancement of the local electric field results in surface-enhanced Raman scattering (SERS). To investigate the SERS effect, the metasurfaces are covered by molecules of 4-mercaptophenylboronic acid, which form covalent bonds with the silver nanolayer and serve as a proof-of-concept. Finally, we obtain a detection limit of 230 nM for molecules of 4-mercaptophenylboronic acid., Comment: 12 pages, 11 figures, 67 references

Published
2021

41. Radiative corrections: from medium to high energy experiments

Author

Afanasev, Andrei, Bernauer, Jan C., Blunden, Peter, Blümlein, Johannes, Cline, Ethan W., Friedrich, Jan M., Hagelstein, Franziska, Husek, Tomáš, Kohl, Michael, Myhrer, Fred, Paz, Gil, Schadmand, Susan, Schmidt, Axel, Sharkovska, Vladyslava, Signer, Adrian, Tomalak, Oleksandr, Tomasi-Gustafsson, Egle, Ulrich, Yannick, and Vanderhaeghen, Marc

Published
2024
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42. Albumin incorporation into recognising layer of HER2-specific magnetic nanoparticles as a tool for optimal targeting of the acidic tumor microenvironment

Author

Olga A. Kolesnikova, Elena N. Komedchikova, Svetlana D. Zvereva, Anastasiia S. Obozina, Olha V. Dorozh, Iurii Afanasev, Petr I. Nikitin, Elizaveta N. Mochalova, Maxim P. Nikitin, and Victoria O. Shipunova

Subjects
Magnetic nanoparticles, Affibody, HER2, Theranostics, Targeted delivery, BSA, Science (General), Q1-390, Social sciences (General), H1-99
Abstract

Cancer is unquestionably a global healthcare challenge, spurring the exporation of novel treatment approaches. In recent years, nanomaterials have garnered significant interest with the greatest hopes for targeted nanoformulations due to their cell-specific delivery, improved therapeutic efficacy, and reduced systemic toxicity for the organism. The problem of successful clinical translation of nanoparticles may be related to the fact that most in vitro tests are performed at pH values of normal cells and tissues, ranging from 7.2 to 7.4. The extracellular pH values of tumors are characterized by a shift to a more acidic region in the range of 5.6–7.0 and represent a crucial target for enhancing nanoparticle delivery to cancer cells. Here we show the method of non-active protein incorporation into the surface of HER2-targeted nanoparticles to achieve optimal cellular uptake within the pH range of the tumor microenvironment. The method efficacy was confirmed in vitro and in vivo showing the maximum binding of nanoparticles to cells at a pH value 6.4. Namely, fluorescent magnetic nanoparticles, modified with HER2-recognising affibody ZHER2:342, with proven specificity in terms of HER2 recognition (with 62-fold higher cellular uptake compared to control nanoparticles) were designed for targeting cancer cells at slightly acidic pH values. The stabilizing protein, namely, bovine serum albumin, one of the major blood components with widespread availability and biocompatibility, was used for the decoration of the nanoparticle surface to alter the pH response of the targeting magnetic conjugates. The optimally designed nanoparticles showed a bell-shaped dependency of interaction with cancer cells in the pH range of 5.6–8.0 with maximum cellular uptake at pH value 6.4 close to that of the tumor microenvironment. In vivo experiments revealed that after i.v. administration, BSA-decorated nanoparticles exhibited 2 times higher accumulation in tumors compared to magnetic nanoparticles modified with affibody only. Thus, we demonstrated a valid method for enhancing the specificity of targeted nanoparticle delivery to cancer cells without changing the functional components of nanoparticles.

Published
2024
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43. Hydrogen storage ability of hexagonal boron nitride

Author

Andrey M. Kovalskii, Anton M. Manakhov, Pavel A. Afanasev, Zakhar I. Popov, Andrei T. Matveev, and Abdulaziz S. Al-Qasim

Subjects
hydrogen storage, sustainability, boron nitride, structure design, functionalization, theoretical modeling, Technology
Abstract

The development of hydrogen energy is capable of solving a number of important issues that modern society is facing, including global warming and various environmental impacts. Currently, there is an intensive search for natural sources of hydrogen as well as low-carbon techniques for mass production of hydrogen from natural gas, associated petroleum gas, and water. In parallel, efforts to develop technologies for the subsequent management of hydrogen are underway, and the creation of its safe and efficient storage is one of the highest priority goals. For the transportation and storage of hydrogen today, a number of solutions are offered, each of which has both positive and negative aspects. The boron nitride family of materials with high thermal and chemical stability, variability of morphologies, and flexibility of structure has been considered as a candidate for efficient hydrogen storage. This review offers to familiarize readers with the progress in the research and application of hexagonal boron nitride (h-BN), as well as BN-based materials in comparison with other materials, as promising hydrogen storage. Experimental and theoretical data obtained for different morphologies and internal structures were reviewed in relevance to the material`s sorption capacity with respect to hydrogen. Various approaches to improve the efficiency of hydrogen storage were analyzed, and the highest storage capabilities published were mentioned. Thus, BN-based materials are very promising as hydrogen storage, even for an automotive application, but the development of new mass production technologies should be carried out.

Published
2024
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44. Electromagnetic Vortex Topologies from Sparse Circular Phased Arrays

Author

Wang, Hao, Szekerczes, Kaitlyn, and Afanasev, Andrei

Subjects
Physics - Classical Physics, Physics - Optics, Quantum Physics
Abstract

Structured vortex waves have numerous applications in optics, plasmonics, radio-wave technologies and acoustics. We present a theoretical study of a method for generating vortex states based on coherent superposition of waves from discrete elements of planar phased arrays, given limitations on an element number. Using Jacobi-Anger expansion, we analyze emerging vortex topologies and derive a constraint for the least number of elements needed to generate a vortex with a given leading-order topological charge., Comment: 11 pages, 4 figures; references and discussion added

Published
2021
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45. Fiscal Mechanism for Stimulating Domestic Production in Some BRICS and European Countries

Author

Vladimir V. Olkhovik, Roman S. Afanasev, Edvardas Juchnevicius, and Tatyana N. Malofeeva

Subjects
commodity production, stimulating, value added tax, social grants, economic activity, redistribution, budgetary incentives, brics countries, vat distribution, economic growth, Finance, HG1-9999
Abstract

The issue of stimulating domestic production is multifaceted and has a long history of study. At present, it is particularly relevant due to the introduction of restrictive measures, including the termination of supplies of a number of foreign goods to the Russian Federation. As one of the possible measures to increase the production of goods by Russian companies and entrepreneurs, the authors consider a new incentive mechanism of redistribution of value added tax (VAT) received by the federal budget, which implies the direction of the amounts of social grants taking into account the economic activity of the region associated with the production of value added on its territory. The purpose of the article is to justify a new methodology that includes a financial mechanism for redistributing the amounts of VAT in the form of grants to producers, aimed at creating effective budgetary incentives for regions to organize their own production of goods. For this purpose, the experience of VAT distribution in two BRICS countries — Brazil and China — is considered. In addition, the article summarizes effective measures of Germany, France, Greece, Austria and Norway to optimize calculation and payment of VAT, which resulted in economic growth. Discussion. One notable approach proposed by the authors to create a new incentive mechanism for redistribution of VAT revenues to the federal budget. This mechanism involves the allocation of social grants depending on the economic activity of the regions, particularly related to the production of valueadded goods on their territory. This approach represents a departure from traditional fiscal policies aimed at aligning incentives with local production. Results. This research represents a significant contribution to the ongoing debate on stimulating domestic production. By advocating a new mechanism of VAT redistribution and drawing on international experiences, the study seeks to address the challenges posed by restrictive measures and promote economic growth in the Russian Federation.

Published
2023
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48. A Chirality-Based Quantum Leap

Author

Aiello, Clarice D, Abendroth, John M, Abbas, Muneer, Afanasev, Andrei, Agarwal, Shivang, Banerjee, Amartya S, Beratan, David N, Belling, Jason N, Berche, Bertrand, Botana, Antia, Caram, Justin R, Celardo, Giuseppe Luca, Cuniberti, Gianaurelio, Garcia-Etxarri, Aitzol, Dianat, Arezoo, Diez-Perez, Ismael, Guo, Yuqi, Gutierrez, Rafael, Herrmann, Carmen, Hihath, Joshua, Kale, Suneet, Kurian, Philip, Lai, Ying-Cheng, Liu, Tianhan, Lopez, Alexander, Medina, Ernesto, Mujica, Vladimiro, Naaman, Ron, Noormandipour, Mohammadreza, Palma, Julio L, Paltiel, Yossi, Petuskey, William, Ribeiro-Silva, João Carlos, Saenz, Juan José, Santos, Elton JG, Solyanik-Gorgone, Maria, Sorger, Volker J, Stemer, Dominik M, Ugalde, Jesus M, Valdes-Curiel, Ana, Varela, Solmar, Waldeck, David H, Wasielewski, Michael R, Weiss, Paul S, Zacharias, Helmut, and Wang, Qing Hua

Subjects
chirality, probe microscopy, quantum information, quantum materials, electron transport, spintronics, photoexcitation, quantum biology, chiral imprinting, Nanoscience & Nanotechnology
Abstract

There is increasing interest in the study of chiral degrees of freedom occurring in matter and in electromagnetic fields. Opportunities in quantum sciences will likely exploit two main areas that are the focus of this Review: (1) recent observations of the chiral-induced spin selectivity (CISS) effect in chiral molecules and engineered nanomaterials and (2) rapidly evolving nanophotonic strategies designed to amplify chiral light-matter interactions. On the one hand, the CISS effect underpins the observation that charge transport through nanoscopic chiral structures favors a particular electronic spin orientation, resulting in large room-temperature spin polarizations. Observations of the CISS effect suggest opportunities for spin control and for the design and fabrication of room-temperature quantum devices from the bottom up, with atomic-scale precision and molecular modularity. On the other hand, chiral-optical effects that depend on both spin- and orbital-angular momentum of photons could offer key advantages in all-optical and quantum information technologies. In particular, amplification of these chiral light-matter interactions using rationally designed plasmonic and dielectric nanomaterials provide approaches to manipulate light intensity, polarization, and phase in confined nanoscale geometries. Any technology that relies on optimal charge transport, or optical control and readout, including quantum devices for logic, sensing, and storage, may benefit from chiral quantum properties. These properties can be theoretically and experimentally investigated from a quantum information perspective, which has not yet been fully developed. There are uncharted implications for the quantum sciences once chiral couplings can be engineered to control the storage, transduction, and manipulation of quantum information. This forward-looking Review provides a survey of the experimental and theoretical fundamentals of chiral-influenced quantum effects and presents a vision for their possible future roles in enabling room-temperature quantum technologies.

Published
2022

49. Monte Carlo Modeling of Spin-polarized Photoemission from p-doped GaAs Activated to Negative Electron Affinity

Author

Chubenko, Oksana, Karkare, Siddharth, Dimitrov, Dimitre, Bae, Jai Kwan, Cultrera, Luca, Bazarov, Ivan, and Afanasev, Andrei

Subjects
Physics - Applied Physics
Abstract

The anticorrelation between quantum efficiency (QE) and electron spin polarization (ESP) from a p-doped GaAs activated to negative electron affinity (NEA) is studied in detail using an ensemble Monte Carlo approach. The photoabsorption, momentum and spin relaxation during transport, and tunnelling of electrons through the surface potential barrier are modeled to identify fundamental mechanisms, which limit the efficiency of GaAs spin-polarized electron sources. In particular, we study the response of QE and ESP to various parameters such as the photoexcitation energy, doping density, and electron affinity level. Our modeling results for various transport and emission characteristics are in a good agreement with available experimental data. Our findings show that the behaviour of both QE and ESP at room temperature can be fully explained by the bulk relaxation mechanisms and the time which electrons spend in the material before being emitted.

Published
2021
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50. Radiative corrections to the lepton current in unpolarized elastic $lp$-interaction for fixed $Q^2$ and scattering angle

Author

Afanasev, A. and Ilyichev, A.

Subjects
High Energy Physics - Phenomenology
Abstract

The kinematical difference between the description of radiative effects for fixed $Q^2$ vs a fixed scattering angle in the elastic lepton-proton ($lp$)-scattering is discussed. The technique of calculation as well as explicit expressions for radiative corrections to the lepton current in unpolarized elastic $lp$-scattering for these two cases are presented without using an ultrarelativistic approximation. A comparative numerical analysis within kinematic conditions of Jefferson Lab measurements and MUSE experiment in PSI is performed., Comment: 12 pages, 5 figures, published in European Physical Journal A Topical Issue 'An Experimental Program with Positron Beams at Jefferson Lab'

Published
2021
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