Showing total 1,443 results

1. White paper on nuclear astrophysics and low energy nuclear physics Part 1: Nuclear astrophysics

Author

Zingale, Michael [Stony Brook Univ., NY (United States). Dept. of Physics and Astronomy; Joint Inst. for Nuclear Astrophysics Center for the Evolution of the Elements (United States)]

Published

2016

2. LINE EQUIVALENT WIDTHS AND ABUNDANCES FOR PROGRAM STARS OF THE PAPER: 'Iron-Peak Element Abundances in Warm Very Metal-Poor Stars'

Author

Sneden, Christopher, Boesgaard, Ann Merchant, Cowan, John J., Roederer, Ian U., Dn Hartog, Elizabeth A., and Lawler, James E.

Subjects

origin of the elements, stellar spectroscopy, stellar chemical compositions, nucleosynthesis

Abstract

In this paper we determined Mg, Ca, and Fe-group (Z=21-30) elemental abundances for 37 very metal-poor main sequence turn-off stars. We derived these abundances from equivalent widths measured on Keck-I HIRES spectra obtained originally for beryllium abundance analyses (Boesgaard, A. M., et al. 2011, Astrophys. J., 743, 140). Here we list the line parameters, equivalent widths, and abundances for all program stars. Each file first has one header line showing the file name and the name of the star as listed in the paper (see below). Then one line gives the model parameters derived for the star: T_eff, log(g), [M/H], V_micro. These values are those of the paper (Table 1), except for [M/H]. That value refers to the overall metallicity assumed in creation of the stellar model atmosphere, and is not listed in the paper. Then the third line has headers for the data columns: (1) species: species name in standard notation (2) wave: line wavelength in Angstroms (3) chi: excitation energy in eV (4) loggf transition probability log_10(gf) (5) EW equivalent width in milli-Angstroms (6) logRW reduced width log_10(EW/wave) (7) eps abundance in log_10(epsilon) units (where eps(H) = 12.0) (8) blends/syn alert to the use of blended-line EW or synthetic spectrum analyses (needed for odd-Z elements and Zn) Here are the matches between file names in this directory and star names in the paper: g6412.lin G 64-12 g2754.lin G 275-4 g6437.lin G 64-37 lp83170.lin LP 831-70 g20634.lin G 206-34 bp92190.lin BD +9 2190 bm133442.lin BD -13 3442 bp202030.lin BD +20 2030 lp81543.lin LP 815-43 bp030740.lin BD +3 740 bp12341.lin BD +1 2341 lp6514.lin LP 651-4 bp262621.lin BD +26 2621 lp55362.lin LP 553-62 g926.lin G 92-6 g2612.lin G 26-12 lp63514.lin LP 635-14 g437.lin G 4-37 g18128.lin G 181-28 g8810.lin G 88-10 g10858.lin G 108-58 bp241676.lin BD +24 1676 bm43208.lin BD -4 3208 bp133683.lin BD +13 3683 g12652.lin G 126-52 g2015.lin G 201-5 g5924.lin G 59-24 bp23375.lin BD +2 3375 ltt1566.lin LTT 1566 g7556.lin G 75-56 bm100388.lin BD -10 388 bm145850.lin BD -14 5850 lp75217.lin LP 752-17 bp362964.lin BD +36 2964 g13065.lin G 130-65 g2024.lin G 20-24 bp511696.lin BD +51 1696 &nbsp

Published

2023

3. Nuclear Theory for Nucleosynthesis: Contribution to the 2014 DNP White Paper on Nuclear Physics in Astrophysics

Author

J. E. Escher

Subjects

Nuclear physics, Physics, Particle physics, Nucleosynthesis, Nuclear astrophysics, Nuclear theory

Published

2014

4. Nucleosynthesis and After: Supernovae and Nucleosynthesis . An Investigation of the History of Matter, from the Big Bang to the Present. David Arnett. Princeton University Press, Princeton, NJ, 1996. xx, 599 pp., illus. $85 or £66.50; paper, $39.50 or £27.50. Princeton Series in Astrophysics

Author

Grant J. Mathews

Subjects

Supernova, Multidisciplinary, Nucleosynthesis, Philosophy, Astrophysics

Published

1996

5. Spectroscopy of neutron-rich nuclei produced by multinucleon transfer reactions at KISS.

Author

Watanabe, Yutaka, Hirayama, Yoshikazu, Mukai, Momo, Niwase, Toshitaka, Schury, Peter, Rosenbusch, Marco, Ishiyama, Hironobu, Jeong, Sun-Chan, Miyatake, Hiroari, Wada, Michiharu, Kimura, Sota, Iimura, Shun, Moon, Jun Young, Hashimoto, Takashi, and Taniguchi, Akihiro

Subjects

NUCLEAR reactions, NUCLEOSYNTHESIS, SPECTROMETRY, NEUTRON capture, NUCLEAR models

Abstract

Properties such as lifetimes and masses of neutron-rich nuclei are key parameters for elucidating the astrophysical rapid neutron capture process (r-process). Due to the lack of experimental nuclear data in the relevant extremely neutron-rich region, especially near and above N = 126, the predictions of theoretical nuclear models are crucial for simulating r-process nucleosynthesis. Experimental studies of the properties and structures of neutron-rich nuclei from near the β stability line up to the r-process path provide important inputs to these theoretical models, improving the accuracy of predictions for the nuclear properties involved in the rprocess. We are developing the KEK Isotope Separation System (KISS) at the RIKEN RIBF facility to produce and separate these nuclei to perform spectroscopy experiments. The nuclei of interest are produced by multinucleon transfer reactions, which have been recently attracting renewed interest as they provide a way to access neutron-rich nuclei that are difficult to produce by other methods such as complete fusion or fragmentation. We have performed nuclear and laser spectroscopy, lifetime and mass measurements of neutron-rich nuclei of refractory elements near the N = 126 region using 198,natPt, natTa, natW, and natIr targets irradiated with 136Xe beams. We also extend our spectroscopic studies into the neutron-rich actinide region using 238U beams. This paper introduces the KISS facility and provides an overview of the nuclear spectroscopy experiments carried out there. We also introduce the KISS-1.5 project, which was started in FY2024 to further extend the research into the neutron-rich region. [ABSTRACT FROM AUTHOR]

Published

2024

6. Rapporteur paper on nucleosynthesis and cosmic rays

Author

M. Cassé

Subjects

Physics, Atmospheric Science, Geophysics, Space and Planetary Science, Nucleosynthesis, Aerospace Engineering, General Earth and Planetary Sciences, Astronomy, Astronomy and Astrophysics, Cosmic ray, Ultra-high-energy cosmic ray

Published

1984

7. Nucleosynthesis in Type Ia Supernovae, Classical Novae, and Type I X-Ray Bursts. A Primer on Stellar Explosions.

Author

José, Jordi

Subjects

NUCLEOSYNTHESIS, TYPE I supernovae, X-ray bursts, COSMOCHEMISTRY, SUPERCOMPUTERS

Abstract

Nuclear astrophysics aims at unraveling the cosmic origins of chemical elements and the physical processes powering stars. It constitutes a truly multidisciplinary field, that integrates tools, advancements, and accomplishments from theoretical astrophysics, observational astronomy, cosmochemistry, and theoretical and experimental atomic and nuclear physics. For instance, the advent of high-energy astrophysics, facilitated by space-borne observatories, has ushered in a new era, offering a unique, panchromatic view of the universe (i.e., allowing multifrequency observations of stellar events); supercomputers are also playing a pivotal role, furnishing astrophysicists with computational capabilities essential for studying the intricate evolution of stars within a multidimensional framework; cosmochemists, through examination of primitive meteorites, are uncovering tiny fragments of stardust, shedding light on the physical processes operating in stars and on the mechanisms that govern condensation of stellar ejecta into solids; simultaneously, nuclear physicists managed to measure nuclear reactions at (or close to) stellar energies, using both stable and radioactive ion beam facilities. This paper provides a multidisciplinary view on nucleosynthesis accompanying stellar explosions, with a specific focus on thermonuclear supernovae, classical novae, and type I X-ray bursts. [ABSTRACT FROM AUTHOR]

Published

2024

8. Shedding light on 17O(n,α)14C reaction at astrophysical energies with Trojan Horse Method and Asymptotic Normalization Coefficient.

Author

Oliva, Alessandro Alberto and Guardo, Giovanni Luca

Subjects

NEUTRON capture, NUCLEOSYNTHESIS, ION beams, NUCLEAR reactions, STELLAR atmospheres

Abstract

The 17O(n,α)14C reaction plays a critical role in astrophysical nucleosynthesis, particularly influencing the s-process in stellar environments. Due to the limitations of direct measurement techniques, indirect methods such as the Trojan Horse Method (THM) and Asymptotic Normalization Coefficient (ANC) analysis are employed to study this reaction at astrophysical energies. This paper discusses the application of THM and ANC to derive the reaction cross sections and explore the contributions of various resonant states of 18O. The results obtained from these indirect methods are consistent and provide new insights into the reaction mechanisms, enhancing our understanding of neutron capture processes and neutron poisons in stars. The findings also demonstrate the effectiveness of combining THM and ANC for studying neutron-induced reactions, potentially facilitating future research using Radioactive Ion Beams (RIBs). This work underscores the importance of indirect measurement techniques in advancing nuclear astrophysics, particularly where direct measurements are challenging. [ABSTRACT FROM AUTHOR]

Published

2024

9. Metal-enriched Pair-instability Supernovae: Effects of Rotation.

Author

Umeda, Hideyuki and Nagele, Chris

Subjects

SMALL magellanic cloud, SUPERNOVAE, LARGE magellanic cloud, STELLAR rotation, ROTATIONAL motion, STELLAR mass

Abstract

In this paper, we revisit metal-enriched rotating pair-instability supernovae (PISNe) models for metallicities consistent with the Small Magellanic Cloud, the Large Magellanic Cloud (LMC), and 0.1 Z ⊙. By calculating multiple models, we intend to clarify mass ranges and the ejected 56Ni masses from the PISNe, and mass-loss histories for progenitors. We find that the choice of the Wolf–Rayet (WR) mass-loss rates is important, and we adopt the recently proposed rate of Sander & Vink, which covers the mass ranges for PISNe progenitors. We show that slow rotation lowers the PISN range because the core mass increases by rotational mixing. On the other hand, when we assume a typical rotation speed for observed OB stars, the mass-loss increase becomes more significant, and the final stellar masses are lower than in nonrotating models. As a result, the typical mass range for bright supernovae (SNe), with a 56Ni mass higher than 10 M ⊙ for these fast-rotating models is more than 400 and 350 M ⊙ for LMC and 0.1 Z ⊙ metallicities, respectively. It is interesting that unlike in previous works, we find oxygen-rich progenitors for most cases. This O-rich progenitor may be consistent with the recently identified PISN candidate SN2018ibb. He-rich progenitors are seen only for relatively dim and metal-poor (Z ≲ 0.1 Z ⊙) PISNe. We also discuss the black hole mass gap for metal-enriched PISNe, and we show that the upper bound for the gap is lower than in the Population III case. [ABSTRACT FROM AUTHOR]

Published

2024

10. Special Issue: Symmetry beyond the Standard Models of Cosmology, High Energy Physics and Quantum Field Theory.

Author

Beylin, Vitaly and Khlopov, Maxim

Subjects

FIELD theory (Physics), PARTICLE physics, QUANTUM field theory, STANDARD model (Nuclear physics), PHYSICAL cosmology, INFLATIONARY universe, ELECTROWEAK interactions, NUCLEOSYNTHESIS

Abstract

This document is a special issue of the journal "Symmetry" titled "Symmetry beyond the Standard Models of Cosmology, High Energy Physics and Quantum Field Theory." It discusses the advancements in research on the nature of matter, particularly at high interaction energies that are inaccessible on Earth. The study of phenomena beyond the standard model is explored through the interdependent paths of cosmology, high-energy physics, and quantum field theory. The papers in this special issue cover a range of topics, including the spin-charge-family theory, gravitational baryogenesis, the evolution of the universe, dark matter, primordial black holes, primordial nucleosynthesis, and new types of particles. The document concludes by highlighting the exciting advances in the study of symmetry groups and macroscopic structures. [Extracted from the article]

Published

2024

11. On the Formation of a Nonequilibrium Chemical Composition in the Shells of Neutron Stars.

Author

Ignatovskiy, A. Yu.

Subjects

STATISTICAL equilibrium, NUCLEOSYNTHESIS, NUCLEAR astrophysics, HIGH temperatures

Abstract

The chemical composition of the shell of a neutron star (SNS) at high temperatures and densities is discussed in this paper. A model for nucleosynthesis is proposed based on the approximation of nuclear statistical equilibrium (NSE). The dependence of the results of the nucleosynthesis on the parameters of the medium in a static approximation is studied. The results of this paper are qualitatively similar to earlier work by other authors. It is shown that the proposed model provides a fair description of the abundance of nuclei even in the static approximation. [ABSTRACT FROM AUTHOR]

Published

2021

12. Validation of D–T fusion power prediction capability against 2021 JET D–T experiments.

Author

Kim, Hyun-Tae, Auriemma, Fulvio, Ferreira, Jorge, Gabriellini, Stefano, Ho, Aaron, Huynh, Philippe, Kirov, Krassimir, Lorenzini, Rita, Marin, Michele, Poradzinski, Michal, Shi, Nan, Staebler, Gary, Štancar, Žiga, Stankunas, Gediminas, Konrad Zotta, Vito, Belli, Emily, Casson, Francis J, D Challis, Clive, Citrin, Jonathan, and van Eester, Dirk

Subjects

NUCLEAR fusion, PREDICTIVE validity, FORECASTING, PREDICTION models, MEASUREMENT errors, STATISTICAL power analysis, LARGE deviations (Mathematics), NUCLEOSYNTHESIS, JETS (Nuclear physics)

Abstract

JET experiments using the fuel mixture envisaged for fusion power plants, deuterium and tritium (D–T), provide a unique opportunity to validate existing D–T fusion power prediction capabilities in support of future device design and operation preparation. The 2021 JET D–T experimental campaign has achieved D–T fusion powers sustained over 5 s in ITER-relevant conditions i.e. operation with the baseline or hybrid scenario in the full metallic wall. In preparation of the 2021 JET D–T experimental campaign, extensive D–T predictive modelling was carried out with several assumptions based on D discharges. To improve the validity of ITER D–T predictive modelling in the future, it is important to use the input data measured from 2021 JET D–T discharges in the present core predictive modelling, and to specify the accuracy of the D–T fusion power prediction in comparison with the experiments. This paper reports on the validation of the core integrated modelling with TRANSP, JINTRAC, and ETS coupled with a quasilinear turbulent transport model (Trapped Gyro Landau Fluid or QualLiKiz) against the measured data in 2021 JET D–T discharges. Detailed simulation settings and the heating and transport models used are described. The D–T fusion power calculated with the interpretive TRANSP runs for 38 D–T discharges (12 baseline and 26 hybrid discharges) reproduced the measured values within 20 %. This indicates the additional uncertainties, that could result from the measurement error bars in kinetic profiles, impurity contents and neutron rates, and also from the beam-thermal fusion reaction modelling, are less than 20 % in total. The good statistical agreement confirms that we have the capability to accurately calculate the D–T fusion power if correct kinetic profiles are predicted, and indicates that any larger deviation of the D–T fusion power prediction from the measured fusion power could be attributed to the deviation of the predicted kinetic profiles from the measured kinetic profiles in these plasma scenarios. Without any posterior adjustment of the simulation settings, the ratio of predicted D–T fusion power to the measured fusion power was found as 65%–96% for the D–T baseline and 81%–97% for D–T hybrid discharge. Possible reasons for the lower D–T prediction are discussed and future works to improve the fusion power prediction capability are suggested. The D–T predictive modelling results have also been compared to the predictive modelling of the counterpart D discharges, where the key engineering parameters are similar. Features in the predicted kinetic profiles of D–T discharges such as underprediction of ne are also found in the prediction results of the counterpart D discharges, and it leads to similar levels of the normalized neutron rate prediction between the modelling results of D–T and the counterpart D discharges. This implies that the credibility of D–T fusion power prediction could be a priori estimated by the prediction quality of the preparatory D discharges, which will be attempted before actual D–T experiments. [ABSTRACT FROM AUTHOR]

Published

2023

13. Isomers in the Cosmos.

Author

Norman, Eric B.

Subjects

ISOMERS, NUCLEAR reactions, CHEMICAL elements, NUCLEOSYNTHESIS

Abstract

The nucleosynthesis of chemical elements has been established to be the result of a variety of different types of nuclear reactions in stars. Under the extreme temperatures and densities encountered in such environments, nuclear isomers can be populated and thus complicate our understanding of these processes. In this paper, I have chosen to discuss five cases that illustrate how nuclear isomers can play important roles in the nucleosynthesis of chemical elements. [ABSTRACT FROM AUTHOR]

Published

2023

14. Neutrino-driven Winds in Three-dimensional Core-collapse Supernova Simulations.

Author

Wang, Tianshu and Burrows, Adam

Subjects

STELLAR atmospheres, WIND power, THERMAL properties, SUPERNOVAE

Abstract

In this paper, we analyze the neutrino-driven winds that emerge in 12 unprecedentedly long-duration 3D core-collapse supernova simulations done using the code F ornax. The 12 models cover progenitors with zero-age main-sequence mass between 9 and 60 solar masses. In all our models, we see transonic outflows that are at least 2 times as fast as the surrounding ejecta and that originate generically from a proto−neutron star surface atmosphere that is turbulent and rotating. We find that winds are common features of 3D simulations, even if there is anisotropic early infall. We find that the basic dynamical properties of 3D winds behave qualitatively similarly to those inferred in the past using simpler 1D models, but that the shape of the emergent wind can be deformed, very aspherical, and channeled by its environment. The thermal properties of winds for less massive progenitors very approximately recapitulate the 1D stationary solutions, while for more massive progenitors they deviate significantly owing to aspherical accretion. The Y e temporal evolution in winds is stochastic, and there can be some neutron-rich phases. Though no strong r -process is seen in any model, a weak r -process can be produced, and isotopes up to 90Zr are synthesized in some models. Finally, we find that there is at most a few percent of a solar mass in the integrated wind component, while the energy carried by the wind itself can be as much as 10%–20% of the total explosion energy. [ABSTRACT FROM AUTHOR]

Published

2023

15. Nucleosynthesis in Stars: Cauldrons in the Cosmos . Nuclear Astrophysics. Claus E. Rolfs and Willlam S. Rodney. University of Chicago Press, Chicago, 1988. xviii, 561 pp., illus. $74.95; paper, $34.95

Author

Grant J. Mathews

Subjects

Stars, Multidisciplinary, Nucleosynthesis, Philosophy, Nuclear astrophysics, Astronomy

Published

1988

16. Sensitivity of Simulations of Double-detonation Type Ia Supernovae to Integration Methodology.

Author

Zingale, Michael, Chen, Zhi, Rasmussen, Melissa, Polin, Abigail, Katz, Max, Smith Clark, Alexander, and Johnson, Eric T.

Subjects

TYPE I supernovae, COUPLING reactions (Chemistry), NUCLEOSYNTHESIS, NUCLEAR fusion, SPATIAL resolution, NUCLEAR astrophysics

Abstract

We study the coupling of hydrodynamics and reactions in simulations of the double-detonation model for Type Ia supernovae. When assessing the convergence of simulations, the focus is usually on spatial resolution; however, the method of coupling the physics together as well as the tolerances used in integrating a reaction network also play an important role. In this paper, we explore how the choices made in both coupling and integrating the reaction portion of a simulation (operator/Strang splitting versus the simplified spectral deferred corrections method we introduced previously) influences the accuracy, efficiency, and nucleosynthesis of simulations of double detonations. We find no need to limit reaction rates or reduce the simulation time step to the reaction timescale. The entire simulation methodology used here is GPU-accelerated and made freely available as part of the Castro simulation code. [ABSTRACT FROM AUTHOR]

Published

2024

17. Few-Body Reactions with the Trojan Horse Method.

Author

Rapisarda, G.G., Spartá, R., and Tumino, A.

Subjects

TROJAN horse (Greek mythology), ASTROPHYSICS, NUCLEAR reactions, NUCLEOSYNTHESIS, PHYSICS

Abstract

The Trojan Horse method (THM) is a well-established experimental technique to measure nuclear reactions of astrophysical interest avoiding the suppression of the Coulomb barrier affecting experimental direct measurements. In this paper it will describe some of the THM studies involving few-body system of interest for both nuclear physics and nuclear astrophysics, such as the sub-Coulomb proton-proton elastic scattering and the deuteron-deuteron fusion at energies of interest for primordial nucleosynthesis. Moreover, the role of the intercluster motion in nuclei used for THM measurement will be highlight for the discussed physics cases. [ABSTRACT FROM AUTHOR]

Published

2023

18. Spectroscopic Study of 39Ca for Endpoint Nucleosynthesis in Classical Novae

Author

P. Tiwari, R. Hertenberger, Hans-Friedrich Wirth, T. Faestermann, A. Psaltis, C. Fry, M. Anger, J. Liang, Shawn Bishop, A. A. Chen, C. Wrede, and D. Seiler

Subjects

Physics, Paper, History, Nucleosynthesis, Astrophysics, Computer Science Applications, Education, ddc

Abstract

Classical novae are environments which can produce heavier elements up to mass A ∼ 40. These nuclides at the endpoint of nova nucleosynthesis consist of elements such as Ar, K, and Ca. There is an order of magnitude discrepancy with the predicted and theoretical abundances of these endpoint nuclides produced in a classical nova. The uncertainty in the theoretical 38K(p,γ)39Ca reaction rate has been shown to affect the abundances by an order of magnitude or more. The only direct measurement of this reaction rate was performed with the DRAGON facility at TRIUMF; however additional spectroscopic data could aid the interpretation of this data as well as motivate further study of this reaction rate. In this study, we present the preliminary results of a spectroscopic study of 39Ca using the 40Ca(d,t)39Ca reaction carried out at the Maier-Leibnitz Laboratory in Garching, Germany.

Published

2019

19. Coulomb dissociation of $^{16}$O into $^{4}$He and $^{12}$C

Author

Markus Reich, Zsolt Fülöp, Ralf Plag, J. Benlliure, D. Cortina-Gil, Marcel Heine, T. Kröll, H. Törnqvist, A. Kelic-Heil, Kafa Khasawneh, B. Thomas, Tanja Heftrich, Joochun Park, O. Kiselev, Håkan T Johansson, Haik Simon, Tahani Almusidi, Olof Tengblad, Christopher Lehr, Ángel Perea, Lukas Ponnath, Thomas Nilsson, H. Alvarez-Pol, Sonja Storck, C. Caesar, Junki Tanaka, Heiko Scheit, Bastian Löher, Z. Slavkovská, M. Volknandt, rey Danilov, Konrad Schmidt, Sonia Escribano Rodriguez, Rene Reifarth, Isabell Deuter, Enrique Casarejos, T. Hensel, Deniz Kurtulgil, Liam Atkins, Anna-Lena Hartig, Lukas Bott, B. Brückner, Armel Kamenyero, Silvia Murillo Morales, Yuri A. Litvinov, S. Fiebiger, Jan Glorius, Matthias Holl, Igor Gašparić, Hendrik Schulte, Romana Popocovski, Enis Lorenz, José L. Sánchez, Stefan Typel, V. Wagner, Viktor Starostin, Stefanos Paschalis, Deniz Savran, David Gonzales Caamaño, Leonard Brandenburg, Daniel Körper, Felix Wamers, Ashton Falduto, Christoph Langer, Björn Jonson, Christian Sürder, María José García Borge, P. Erbacher, László Varga, N. Kurz, Philipp Klenze, Dmytro Kresan, Klaus Volk, Alexander Grein, Marvin Kohls, Kathrin Göbel, Pablo Cabanelas Eiras, Han-Bum Rhee, Roman Gernhäuser, Lorenzo Zanetti, Daniel Bemmerer, Konstanze Boretzky, Enrique Nácher, reas Heinz, D. M. Rossi, Leonid Chulkov, Mario Weigand, Joakim Cederkäll, Michael Heil, Nasser Kalantar-Nayestanaki, Marina Petri, Thomas Aumann, Henning Heggen, Institut Pluridisciplinaire Hubert Curien (IPHC), Université de Strasbourg (UNISTRA)-Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Grand Accélérateur National d'Ions Lourds (GANIL), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Energy and Sustainability Research Institute Groni, Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS), Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Technische Universität Darmstadt, Federal Ministry of Education and Research (Germany), and Croatian Science Foundation

Subjects

Paper, History, Scintillator, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], 01 natural sciences, 7. Clean energy, Dissociation (chemistry), Education, Ion, Nuclear physics, nucleosynthesis, 12C(α, γ)16O, Coulomb dissociation, R3B setup, TheoryofComputation_ANALYSISOFALGORITHMSANDPROBLEMCOMPLEXITY, 0103 physical sciences, Coulomb, Nuclear fusion, ddc:530, 010306 general physics, Physics, 010308 nuclear & particles physics, Scattering, Charge number, ddc, Computer Science Applications, Nucleon

Abstract

8 pags., 3 figs., We measured the Coulomb dissociation of 16O into 4He and 12C at the R3B setup in a first campaign within FAIR Phase 0 at GSI Helmholtzzentrum für Schwerionenforschung, Darmstadt. The goal was to improve the accuracy of the experimental data for the 12C(α,γ)16O fusion reaction and to reach lower center-ofmass energies than measured so far. The experiment required beam intensities of 109 16O ions per second at an energy of 500 MeV/nucleon. The rare case of Coulomb breakup into 12C and 4He posed another challenge: The magnetic rigidities of the particles are so close because of the same mass-to-charge-number ratio A/Z = 2 for 16O, 12C and 4He. Hence, radical changes of the R3B setup were necessary. All detectors had slits to allow the passage of the unreacted 16O ions, while 4He and 12C would hit the detectors’ active areas depending on the scattering angle and their relative energies. We developed and built detectors based on organic scintillators to track and identify the reaction products with sufficient precision., This project was carried out within FAIR Phase 0 at GSI Helmholtzzentrum für Schwerionenforschung, Darmstadt. This project was supported by the Bundesministerium für Bildung und Forschung (BMBF) (05P19RFFN1, 05P15RFFN1, 05P15RDFN1), HGS-HIRE, HIC for FAIR and the GSI-TU Darmstadt cooperation agreement. I. Gašparić and R. Popočovski have been supported by the Croatian Science Foundation under projects no. 1257 and 7194.

Published

2019

20. La filacteria contra el granizo de Aïn-Fourna (AE 1939, 136): un testimonio excepcional de magia profiláctica.

Author

González, Diego Meseguer and Elboj, Gonzalo Fontana

Subjects

NUCLEOSYNTHESIS, MAGIC, SNAKES, NARRATIVES, INSCRIPTIONS

Abstract

Copyright of Gerion: Revista de Historia Antigua is the property of Universidad Complutense de Madrid and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

21. Favorable Conditions for Heavy Element Nucleosynthesis in Rotating Protomagnetar Winds.

Author

Prasanna, Tejas, Coleman, Matthew S. B., and Thompson, Todd A.

Subjects

MAGNETIC flux density, HEAVY elements, NEUTRON stars, MAGNETIC fields, NUCLEOSYNTHESIS

Abstract

The neutrino-driven wind cooling phase of proto-neutron stars (PNSs) follows successful supernovae. Wind models without magnetic fields or rotation fail to achieve the necessary conditions for production of the third r -process peak, but robustly produce a weak r- process in neutron-rich winds. Using 2D magnetohydrodynamic simulations with magnetar-strength magnetic fields and rotation, we show that the PNS rotation rate significantly affects the thermodynamic conditions of the wind. We show that high-entropy material is quasiperiodically ejected from the closed zone of the PNS magnetosphere with the required thermodynamic conditions to produce heavy elements. We show that maximum entropy S of the material ejected depends systematically on the magnetar spin period P ⋆ and scales as S ∝ P ⋆ − 5 / 6 for sufficiently rapid rotation. We present results from simulations at a constant neutrino luminosity representative of ∼1–2 s after the onset of cooling for P ⋆ ranging from 5–200 ms and a few simulations with evolving neutrino luminosity where we follow the evolution of the magnetar wind until 10–14 s after the onset of cooling. We estimate at magnetar polar magnetic field strength B 0 = 3 × 1015 G and 1015 G that neutron-rich magnetar winds can, respectively, produce at least ∼1–5 × 10−5 M ⊙ and ∼1–4 × 10−7 M ⊙ of material with the required parameters for synthesis of the third r -process peak, within 1–2 s and 10 s, respectively, in that order after the onset of cooling. We show that proton-rich magnetar winds can have favorable conditions for production of p- nuclei, even at a modest B 0 = 5 × 1014 G. [ABSTRACT FROM AUTHOR]

Published

2024

22. New Wolf–Rayet wind yields and nucleosynthesis of Helium stars.

Author

Higgins, Erin R, Vink, Jorick S, Hirschi, Raphael, Laird, Alison M, and Sander, Andreas A C

Subjects

*STELLAR evolution, *SUPERGIANT stars, *STELLAR winds, *STELLAR mass, *NUCLEAR reactions

Abstract

Strong metallicity-dependent winds dominate the evolution of core He-burning, classical Wolf–Rayet (cWR) stars, which eject both H and He-fusion products such as |$^{14}$| N, |$^{12}$| C, |$^{16}$| O, |$^{19}$| F, |$^{22}$| Ne, and |$^{23}$| Na during their evolution. The chemical enrichment from cWRs can be significant. cWR stars are also key sources for neutron production relevant for the weak s-process. We calculate stellar models of cWRs at solar metallicity for a range of initial Helium star masses (12–50  |$\rm M_{\odot }$|⁠), adopting recent hydrodynamical wind rates. Stellar wind yields are provided for the entire post-main sequence evolution until core O-exhaustion. While literature has previously considered cWRs as a viable source of the radioisotope |$^{26}$| Al, we confirm that negligible |$^{26}$| Al is ejected by cWRs since it has decayed to |$^{26}$| Mg or proton-captured to |$^{27}$| Al. However, in Paper I, we showed that very massive stars eject substantial quantities of |$^{26}$| Al, among other elements including N, Ne, and Na, already from the zero-age-main-sequence. Here, we examine the production of |$^{19}$| F and find that even with lower mass-loss rates than previous studies, our cWR models still eject substantial amounts of |$^{19}$| F. We provide central neutron densities (N |$_{n}$|⁠) of a 30  |$\rm M_{\odot }$| cWR compared with a 32  |$\rm M_{\odot }$| post-VMS WR and confirm that during core He-burning, cWRs produce a significant number of neutrons for the weak s-process via the |$^{22}$| Ne(⁠|$\alpha$|⁠ ,n) |$^{25}$| Mg reaction. Finally, we compare our cWR models with observed [Ne/He], [C/He], and [O/He] ratios of Galactic WC and WO stars. [ABSTRACT FROM AUTHOR]

Published

2024

23. Synthesis and Characterization of ZnO-Nanostructured Particles Produced by Solar Ablation.

Author

Schiopu, Adriana-Gabriela, Oproescu, Mihai, Iana, Vasile Gabriel, Ducu, Catalin Marian, Moga, Sorin Georgian, Vîlcoci, Denisa Stefania, Cîrstea, Georgiana, Calinescu, Valentin Marian, and Ahmed, Omar

Subjects

RENEWABLE energy sources, SOLAR energy, NANOSTRUCTURED materials, CRYSTAL structure, X-ray diffraction, NUCLEOSYNTHESIS

Abstract

Nowadays, nanotechnology offers opportunities to create new features and functions of emerging materials. Correlation studies of nanostructured materials' development processes with morphology, structure, and properties represent one of the most important topics today due to potential applications in all fields: chemistry, mechanics, electronics, optics, medicine, food, or defense. Our research was motivated by the fact that in the nanometric domain, the crystalline structure and morphology are determined by the elaboration mechanism. The objective of this paper is to provide an introduction to the fundamentals of nanotechnology and nanopowder production using the sun's energy. Solar energy, as part of renewable energy sources, is one of the sources that remain to be exploited in the future. The basic principle involved in the production of nanopowders consists of the use of a solar energy reactor concentrated on sintered targets made of commercial micropowders. As part of our study, for the first time, we report the solar ablation synthesis and characterization of Ni-doped ZnO performed in the CNRS-PROMES laboratory, UPR 8521, a member of the CNRS (French National Centre for Scientific Research). Also, we study the effect of the elaboration method on structural and morphological characteristics of pure and doped ZnO nanoparticles determined by XRD, SEM, and UV-Vis. [ABSTRACT FROM AUTHOR]

Published

2023

24. Flares from Merged Magnetars: Their Prospects as a New Population of Gamma-Ray Counterparts of Binary Neutron Star Mergers.

Author

Yi, Shu-Xu, Zhang, Zhen, and Wang, Xilu

Subjects

NEUTRON stars, STELLAR mergers, BINARY stars, MAGNETARS, GRAVITATIONAL waves, GAMMA ray bursts, MERGERS & acquisitions, NUCLEOSYNTHESIS

Abstract

Long-lived massive magnetars are expected to be remnants of some binary neutron star (BNS) mergers. In this paper, we argue that the magnetic powered flaring activities of these merged magnetars would occur dominantly in their early millisecond-period-spin phase, which is in the timescale of days. Such flares endure significant absorption by the ejecta from the BNS collision, and their detectable energy range is from 0.1 to 10 MeV, in a time lag of approximately days after the merger events indicated by the gravitational wave chirps. We estimate the rate of such flares in different energy ranges, and find that there could have been 0.1–10 cases detected by Fermi/GBM. A careful search for ∼10 ms spin-period modulation in weak short gamma-ray bursts (GRBs) may identify them from the archival data. The next-generation megaelectronvolt detectors could detect them at a mildly higher rate. The recent report on the Quasi-Period-Oscillation found in two BASTE GRBs should not be considered as cases of such flares, for they were detected in a lower energy range and with a much shorter period spin modulation. [ABSTRACT FROM AUTHOR]

Published

2023

25. Binary Neutron-Star Mergers with a Crossover Transition to Quark Matter.

Author

Mathews, Grant J., Kedia, Atul, Kim, Hee Il, and Suh, In-Saeng

Subjects

QUARK matter, QUARK-gluon plasma, NUCLEOSYNTHESIS, BINARY black holes, GRAVITATIONAL waves, NEUTRON stars

Abstract

This paper summarizes recent work on the possible gravitational-wave signal from binary neutron-star mergers in which there is a crossover transition to quark matter. Although this is a small piece of a much more complicated problem, we discuss how the power spectral density function may reveal the presence of a crossover transition to quark matter. [ABSTRACT FROM AUTHOR]

Published

2023

26. Experimental study of alpha-induced nuclear reactions on Tellurium isotopes for the astrophysical γ-process.

Author

Mátyus, Zs. and Gyürky, Gy.

Subjects

NUCLEAR reactions, ASTROPHYSICS, NEUTRON capture, NUCLEOSYNTHESIS, NUCLEAR astrophysics

Abstract

Heavier p isotopes are believed to be produced through the γ-process. The path of γ-process can be modelled with network calculations. These calculations include about 20000 reactions on more than 2000, mostly unstable nuclei, many of these reactions involves alpha particles. Theoretical cross sections of reactions involving alpha particles are found to be very sensitive to the alpha-nucleus optical potential, which is not known well enough at low, astrophysical energies. This potential can be studied experimentally by measuring the cross section of (α,n) reactions close above the reaction threshold. The aim of the present work is thus to measure the cross section of the 122Te(α,n)125Xe, 124Te(α,n)127Xe and 130Te(α,n)133Xe reactions for which no data exist in literature. The half-life of the produced Xe isotopes allows us to use the activation technique. Tellurium targets with natural isotopic composition will be used in order to measure the three reactions in parallel. The experiments are in progress using the cyclotron accelerator of ATOMKI. In this paper details of the experimental technique and the preliminary results of the first test measurements are presented. [ABSTRACT FROM AUTHOR]

Published

2023

27. Determination of the 3He(α, γ)7Be and 6Li(p, γ)7Be astrophysical factors down to zero energy using the asymptotic normalization coefficients.

Author

La Cognata, M., Kiss, G. G., Yarmukhamedov, R., Tursunmakhatov, K. I., Wiedenhöver, I., Baby, L. T., Cherubini, S., Cvetinović, A., D'Agata, G., Figuera, P., Guardo, G.L., Gulino, M., Hayakawa, S., Indelicato, I., Lamia, L., Lattuada, M., Mudò, F., Palmerini, S., Pizzone, R.G., and Rapisarda, G.G.

Subjects

ASTROPHYSICS, NUCLEAR astrophysics, NUCLEAR physics, NUCLEOSYNTHESIS, NEUTRINO astrophysics

Abstract

The p - p-chain reaction 3He(α, γ)7Be can sensitively influence the prediction of the 7Be and 8B neutrino fluxes. Despite its importance, the knowledge of its reaction cross section at energies of the core of the Sun (15 keV 30 keV) is limited and the accuracy far from the desired 3% level. In the present paper the indirect measurement of the external capture contribution using the asymptotic normalization coefficient (ANC) technique is reported. The angular distributions of deuterons emitted in the 6Li(3He,d)7Be α-transfer reactions were measured and the ANCs extracted from the scaling of distorted-wave Born approximation (DWBA) and coupled-channel (CC) calculations. Then, the astrophysical S-factor for the 3He(α, γ)7Be reaction was calculated assuming E1 direct capture and the zero energy value turned out to be 0.534 0.025 keVb. Both our experimental and theoretical approaches were benchmarked through the analysis of the 6Li(p,γ)7Be astrophysical factor, with interesting astrophysical applications to the understanding of the primordial lithium problem. In particular, the present work disfavors the occurrence of a claimed 200 keV resonance in the astrophysical factor. [ABSTRACT FROM AUTHOR]

Published

2023

28. Measurement of the production of (anti)(hyper)nuclei.

Author

Pinto, Chiara

Subjects

HEAVY ion collisions, CENTER of mass, HADRON interactions, LARGE Hadron Collider, NUCLEOSYNTHESIS

Abstract

In recent years, ALICE has extensively studied the production of light (anti)(hyper)nuclei in different collision systems and center-of-mass energies. Nevertheless, the production mechanisms of light (hyper)nuclei is still unclear and under intense debate in the scientific community. Two classes of models are typically used to describe nuclear production: the statistical hadronisation model and the coalescence ones. In heavy-ion collisions, both models describe well the production yields of light nuclei and their ratios to the yields of hadrons, making it difficult to distinguish between the two. On the contrary, small collision systems, such as pp and p–Pb collisions, are ideal to study the (anti)(hyper)nuclei production mechanisms, thanks to the large separation between the different predictions. In this paper, recent results on light nuclei production measured with ALICE at the LHC in small collision systems are discussed in the context of the nucleosynthesis models, allowing us to exclude some configurations of the SHM and coalescence models in order to set tighter constraints to the available theoretical predictions. [ABSTRACT FROM AUTHOR]

Published

2023

29. Sensitivity studies on the excited states of nuclei in beta decays in the r-process of neutron star mergers.

Author

Lau, Rita

Subjects

BETA decay, EXCITED states, STELLAR mergers, NEUTRON stars, NEUTRON capture, NUCLEOSYNTHESIS, DECAY rates (Radioactivity)

Abstract

Sensitivity studies conducted in this paper aim to examine the influence of uncertainties in beta decay rates on simulations of rapid neutron capture (r-process) nucleosynthesis. However, previous studies multiplied the ground states of the theoretical rates or the ground states of the experimental rates by 10, and most of the theoretical rates and the experimental rates consider only the beta decay rates of the ground states but not the rates in stellar conditions because of the thermally excited states. In this study, we performed the first sensitivity test on the excited states of nuclei having A > 120 in the r-process. The ground state beta decay rates and estimated excited state rates are folded together to estimate a thermal decay rate as a function of temperature. We examined how the thermally excited states affect the stellar rates for all A > 120 nuclei. We found that there is a slight change in the second peak of final abundance in the r-process by Lu isotopes. This is the same as that in Famiano's paper (Famiano and Boyd 2008 J. Phys. G: Nucl. Part. Phys. 35 2). [ABSTRACT FROM AUTHOR]

Published

2020

30. Time-Synchronized Control of Chaotic Systems in Secure Communication.

Author

Liu, Xinxiao, Li, Chuanjiang, Ge, Shuzhi Sam, and Li, Dongyu

Subjects

TELECOMMUNICATION systems, CHAOTIC communication, LASER communication systems, CHAOS synchronization, INTERSTELLAR communication, OPTICAL communications, NUCLEOSYNTHESIS

Abstract

High-quality data transmission synchronization process is frequently expected in light of secure communication mechanisms (SCMs), especially for space laser communication among the satellite constellation. To improve security and reliability during the data transmission processes prominently, control problems of chaotic synchronization synchronously at the same time are explored. In this paper, several novel error synchronization control protocols are proposed to solve these problems. First, by introducing a norm-normalized sign function (NNSF), unique (fixed-) time-synchronized stability is manifested, such that all non-zero state elements reach the origin synchronously at the same time. And upper bounds of synchronous resident time calculated by offered protocols are irrelevant/relevant to initial states of the error systems. Second, integrated with the (fixed-) time-synchronized stability theories, the (fixed-) time-synchronized sliding mode controllers with special convergent performance are established for two representative types of chaotic systems. Third, the ratio-persistent performance plays a dominating role for simultaneous convergence of the errors. Further, the innovation of the algorithms is reflected in that the decrypted signal is completely consistent with the transmitted message signal within synchronized settling time. Finally, in the simulation, not only theoretical verifications, but also practical verifications of image encryption and decryption processes verify the effectiveness of the SCMs. [ABSTRACT FROM AUTHOR]

Published

2022

31. Cerium Features in Kilonova Near-infrared Spectra: Implication from a Chemically Peculiar Star.

Author

Tanaka, Masaomi, Domoto, Nanae, Aoki, Wako, Ishigaki, Miho N., Wanajo, Shinya, Hotokezaka, Kenta, Kawaguchi, Kyohei, Kato, Daiji, Lee, Jae-Joon, Lee, Ho-Gyu, Hirano, Teruyuki, Kotani, Takayuki, Kuzuhara, Masayuki, Nishikawa, Jun, Omiya, Masashi, Tamura, Motohide, and Ueda, Akitoshi

Subjects

STELLAR mergers, NEUTRON stars, CERIUM, NUCLEOSYNTHESIS, CERIUM oxides, SPECTRAL lines

Abstract

Observations of the kilonova from the neutron star merger event GW170817 opened a way to study r -process nucleosynthesis directly using neutron star mergers. It is, however, challenging to identify individual elements in kilonova spectra due to a lack of complete atomic data, in particular at near-infrared (NIR) wavelengths. In this paper, we demonstrate that spectra of chemically peculiar stars with enhanced heavy-element abundances can provide us with an excellent astrophysical laboratory for kilonova spectra. We show that the photosphere of the late B-type, chemically peculiar star HR 465 has similar lanthanide abundances and ionization degrees with those in the line-forming region in a kilonova at ∼2.5 days after the merger. The NIR spectrum of HR 465 taken with Subaru/IRD indicates that Ce iii lines give the strongest absorption feature around 16000 Å and there are no other comparably strong transitions around these lines. The Ce iii lines nicely match with the broad absorption feature at 14500 Å observed in GW170817 with a blueshift of v = 0.1 c, which supports recent identification of this feature as Ce iii by Domoto et al. [ABSTRACT FROM AUTHOR]

Published

2023

32. NAPOLI NELL'IMMAGINARIO DEI MUSICISTI RUSSI: Il caso di Michail Glinka.

Author

GIUST, ANNA

Subjects

NUCLEOSYNTHESIS, ITALIAN music, LITERARY form, CITIES & towns, EIGHTEENTH century, GAZE, TRAVELERS' writings, TRAVEL hygiene, MEMOIRS

Abstract

Mikhail Glinka represents a fundamental figure in the Russian musical culture: in traditional historiography he is considered the equivalent in music of the poet Aleksandr Pushkin as founder of original literary genres and codifier of the linguistic means with which these were expressed. For a certain period, this "parallel myth" symbolized the birth of an exclusively Russian music, a music that rejected Western influence choosing to mirror the vague concept of 'Russian soul' that he himself contributed to formulate in the years of Russian Romanticism. Today this image is subject to revisionism, oriented to highlight Glinka's synthesis of the major trends of the coeval musical language. Especially in reference to theatre, this more complex image includes elements coming from the western koiné as well as elements of Russian origin. Glinka became familiar with the Italian music tradition because this had settled in Russia during the 18th century and was still à la page during the years of Glinka's training in St Petersburg. His will to improve his compositional skills, however, led him to a prolonged stay in Italy, which made him visit several cities of the peninsula, including Rome and Naples. In his mature years, he collected the impressions of this journey in a volume of Zapiski (Memoirs, 1854). This paper investigates the effect of early-19th-century Italy on the composer as a 'Russian traveler', his own understanding of the country's culture, and the mental frame through which he could "read" the places he visited during his youth, and write about them in later times. The goal is to highlight the difference entailed by the two-stage process of reconstruction of an imaginary, in relation to the Russian context that acted as a counterpart to this gaze. [ABSTRACT FROM AUTHOR]

Published

2023

33. HOMEMADE SUNS.

Author

HEFFERNAN, VIRGINIA

Subjects

COLD fusion, NUCLEAR reactions, ATOMIC nucleus, NUCLEAR fusion, NUCLEAR fission, INERTIAL confinement fusion, NUCLEOSYNTHESIS

Abstract

Start IF NUCLEAR FISSION IS associated with catastrophe, nuclear fusion is associated with delay and fraud. On March 23, 1989, before an audience of feather-haired University of Utah students and at least one member of the presiding bishopric of the Church of Latter-Day Saints, electrochemists Stanley Pons and Martin Fleischmann declared - no peer-reviewed nothing in sight - that they had "established a sustained nuclear fusion reaction." Kritcher, the lead designer of one of the 2021 experiments and first author on one of the resulting papers, explained how her team brought fusion to the threshold of fusion ignition. [Extracted from the article]

Published

2023

34. On the gravitational field of antimatter

Author

Eduard Massó and Francesc Rota

Subjects

Big Bang, Physics, Physics::General Physics, Nuclear and High Energy Physics, Ultimate fate of the universe, media_common.quotation_subject, Astrophysics (astro-ph), FOS: Physical sciences, Astronomy, Astrophysics, Universe, High Energy Physics - Phenomenology, Physics::Popular Physics, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology (hep-ph), Big Bang nucleosynthesis, Gravitational field, Nucleosynthesis, Alpher–Bethe–Gamow paper, Astrophysics::Galaxy Astrophysics, Big Bounce, media_common

Abstract

The gravitational field of matter and that of antimatter could differ. This might be one signature of quantum gravity. We show that primordial Big Bang Nucleosynthesis restricts such a possibility., 11 pages, 3 figures. Reference added

Published

2004

35. Using 44Ti emission to differentiate between thermonuclear supernova progenitors.

Author

Kosakowski, Daniel, Ugalino, Mark Ivan, Fisher, Robert, Graur, Or, Bobrick, Alexey, and Perets, Hagai B

Subjects

TYPE I supernovae, SUPERNOVAE, LIGHT curves, SUPERNOVA remnants, NUCLEAR reactions

Abstract

The radioisotope 44Ti is produced through α-rich freezeout and explosive helium burning in type Ia supernovae (SNe Ia). In this paper, we discuss how the detection of 44Ti, either through late-time light curves of SNe Ia, or directly via gamma-rays, can uniquely constrain the origin of SNe Ia. In particular, building upon recent advances in the hydrodynamical simulation of helium-ignited double white dwarf binaries, we demonstrate that the detection of 44Ti in a nearby SN Ia or in a young Galactic supernova remnant (SNR) can discriminate between the double-detonation and double-degenerate channels of sub-Chandrasekhar (sub- M Ch) and near-Chandrasekhar (near- M Ch) SNe Ia. In addition, we predict that the late-time light curves of calcium-rich transients are entirely dominated by 44Ti. [ABSTRACT FROM AUTHOR]

Published

2023

36. Animo nullius: on AI's origin story and a data colonial doctrine of discovery.

Author

Penn, Jonnie

Subjects

HISTORY of capitalism, ARTIFICIAL intelligence, NUCLEOSYNTHESIS, PSYCHOLOGY, SOCIAL dynamics

Abstract

This paper traces elements of the theoretical origins of artificial intelligence to capitalism, not neurophysiology. It considers efforts in the twentieth and twenty-first centuries to formalize a science of mental behaviour using the dynamics of social rather than neural phenomena. I first revisit early American theorists' controversial ambivalence toward neurophysiology, showing how this group benefited from post-war corporate and military investments in commercial and imperial expansion, which sustained and expanded their influence over the emerging field. I then trace the lasting effect of the founders' early rhetoric through AI's institutionalization after 1960, arguing that from the 2010s technology corporations set out to veil their enclosure of the data commons via appeal to a curious precedent: the scientific pedigree of AI. By relating the field to the history of capitalism, and specifically the rise of assetization in modern technoscience, I invite reflection on AI's origin story and on broader parallels between historical colonialism and data colonialism. I offer a heuristic -- animo nullius, for 'no persons' mind' -- as an attempt to name rhetorical manoeuvres that leverage the authority of mind-as-computer metaphors in order to naturalize acts of seizure. [ABSTRACT FROM AUTHOR]

Published

2023

37. Evaluation of Resonance Strengths and Reaction Rates of 22Ne (p,γ) 23Na Nuclear Reaction at Thermonuclear Energies.

Author

Selman, Ahmed Abdul-Razzaq

Subjects

RESONANCE, COMPUTATIONAL physics, NUCLEAR physics, NUCLEAR reactions, ASYMPTOTIC giant branch stars

Abstract

Copyright of Iraqi Journal of Physics is the property of Republic of Iraq Ministry of Higher Education & Scientific Research (MOHESR) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

38. Big Bang Nucleosynthesis Constraints on the Self-Gravity of Pressure

Author

Josiah Schwab, Saul Rappaport, Scott Burles, and Gary Steigman

Subjects

Physics, Big Bang, Nuclear and High Energy Physics, Ultimate fate of the universe, media_common.quotation_subject, Astrophysics (astro-ph), FOS: Physical sciences, Astrophysics, Universe, Physical cosmology, General Relativity and Quantum Cosmology, Big Bang nucleosynthesis, Nucleosynthesis, Alpher–Bethe–Gamow paper, Big Bounce, media_common

Abstract

Using big bang nucleosynthesis and present, high-precision measurements of light element abundances, we constrain the self-gravity of radiation pressure in the early universe. The self-gravity of pressure is strictly non-Newtonian, and thus the constraints we set provide a direct test of this prediction of general relativity and of the standard, Robertson-Walker-Friedmann cosmology., Comment: 5 pages, 1 figure. This paper was developed from an earlier version which was posted as arXiv:0707.3589

Published

2007

39. A pedagogical model of primordial helium synthesis

Author

Dwight E. Neuenschwander and Brent E. Eskridge

Subjects

Big Bang, Physics, Physics::Physics Education, General Physics and Astronomy, Astronomy, chemistry.chemical_element, Astrophysics::Cosmology and Extragalactic Astrophysics, Modern physics, Cosmology, General Relativity and Quantum Cosmology, Big Bang nucleosynthesis, chemistry, Nucleosynthesis, Alpher–Bethe–Gamow paper, Physics::Atomic Physics, Neutrino, Astrophysics::Galaxy Astrophysics, Helium

Abstract

The calculation of the primordial hydrogen and helium abundances in the big‐bang cosmology is presented in an oversimplified model accessible to university physics students who have had no physics beyond an elementary modern physics course.

Published

1996

40. Enrichment of the Galactic disc with neutron-capture elements: Gd, Dy, and Th.

Author

Mishenina, T, Pignatari, M, Gorbaneva, T, Côté, B, Yagüe López, A, Thielemann, F-K, and Soubiran, C

Subjects

*NUCLEAR astrophysics, *GALACTIC evolution, *MILKY Way, *STELLAR spectra, *HEAVY elements, *GADOLINIUM, *NUCLEOSYNTHESIS, *NEUTRON capture

Abstract

The study of the origin of heavy elements is one of the main goals of nuclear astrophysics. In this paper, we present new observational data for the heavy r -process elements gadolinium (Gd, Z = 64), dysprosium (Dy, Z = 66), and thorium (Th, Z = 90) in a sample of 276 Galactic disc stars (–1.0 < [Fe/H] < + 0.3). The stellar spectra have a high resolution of 42 000 and 75 000, and the signal-to-noise ratio higher than 100. The LTE abundances of Gd, Dy, and Th have been determined by comparing the observed and synthetic spectra for three Gd lines (149 stars), four Dy lines (152 stars), and the Th line at 4019.13 Å (170 stars). For about 70 per cent of the stars in our sample, Gd and Dy are measured for the first time, and Th for 95 per cent of the stars. Typical errors vary from 0.07 to 0.16 dex. This paper provides the first extended set of Th observations in the Milky Way disc. Together with europium (Eu, Z = 63) data from our previous studies, we have compared these new observations with nucleosynthesis predictions and Galactic Chemical Evolution simulations. We confirm that [Gd/Fe] and [Dy/Fe] show the same behaviour of Eu. We study with GCE simulations the evolution of [Th/Fe] in comparison with [Eu/Fe], showing that unlike Eu, either the Th production is metallicity dependent in case of a unique source of the r-process in the Galaxy, or the frequency of the Th-rich r-process source is decreasing with the increase in [Fe/H]. [ABSTRACT FROM AUTHOR]

Published

2022

41. Compatibility of big bang nucleosynthesis in some modified gravities.

Author

Sultan, Abdul Malik and Jawad, Abdul

Subjects

NUCLEOSYNTHESIS, DARK energy, HUBBLE constant, ENERGY industries, GRAVITY, CHI-squared test

Abstract

This paper is devoted to investigate the implications of Einstein-Aether and modified Hořava–Lifshitz theories of gravity to the formation of light elements in the early universe named as big bang nucleosynthesis. We choose different models from these theories for a detailed investigation of big bang nucleosynthesis epoch and compare it with the observational bounds. That is, we compare the deviation of freeze-out temperature T f with the Λ CDM paradigm and use observational bounds on Δ T f T f to inspect constraints on the involved free parameters of these models. We apply Chi-square test on the Hubble parameter H in each model to analyze the compatibility of model parameters with the observations and find consistent results. We find that chosen models of Einstein-Aether gravity and modified Hořava–Lifshitz gravity can satisfy big bang nucleosynthesis constraints and thus constitute a viable cosmology since they can be source for dark energy sector and late-time accelerated expansion. [ABSTRACT FROM AUTHOR]

Published

2022

42. Stellar elemental abundances constraining nucleosynthesis and chemical evolution of the universe.

Author

Aoki, Wako

Subjects

NUCLEOSYNTHESIS, SPECTROMETRY, MILKY Way, NEUTRONS, ATOMS

Abstract

Measurements of elemental abundances of stars in the Milky Way and surrounding dwarf galaxies in the past few decades have been providing useful constraints on modeling the nucleosynthesis and chemical evolution. Recent large spectroscopic surveys combined with studies on dynamical motions of stars in the Milky Way reveal connections between chemical enrichment and galaxy formation. This paper provides a brief overview of the recent update of the understanding of the distribution of elemental abundances and remaining issues for key elements, mostly focusing on the low metallicity range which should reflect nucleosynthesis by massive stars and early chemical evolution. This covers the abundance ratios of α-elements, iron-peak elements, and neutron-capture elements which have been measured for a large number of metal-poor stars. [ABSTRACT FROM AUTHOR]

Published

2022

43. Comment on 'Heavy element production in inhomogeneous big bang nucleosynthesis'

Author

Thomas Rauscher

Subjects

Physics, Big Bang, Nuclear and High Energy Physics, Particle physics, Ultimate fate of the universe, media_common.quotation_subject, Astrophysics (astro-ph), Nuclear Theory, FOS: Physical sciences, Astrophysics, Abundance of the chemical elements, Universe, Big Bang nucleosynthesis, Nucleosynthesis, Alpher–Bethe–Gamow paper, Nuclear Experiment, Big Bounce, media_common

Abstract

The work of Matsuura et al. [Phys. Rev. D 72, 123505 (2005); astro-ph/0507439] claims that heavy nuclei could have been produced in a combined p- and r-process in very high baryon density regions of an inhomogeneous big bang. However, they do not account for observational constraints and previous studies which show that such high baryon density regions did not significantly contribute to big bang abundances., 2 pages, submitted to Phys. Rev. D on Feb 23, 2006

Published

2007

44. On the core-collapse supernova explanation for LAMOST J1010 + 2358.

Author

Jeena, S K, Banerjee, Projjwal, and Heger, Alexander

Subjects

*SUPERNOVAE, *STARS, *STELLAR mass, *STELLAR populations, *NUCLEOSYNTHESIS, *SUPERGIANT stars

Abstract

Low-metallicity very massive stars with an initial mass of ∼140– |$260\, \mathrm{M}_\odot$| are expected to end their lives as pair-instability supernovae (PISNe). The abundance pattern resulting from a PISN differs drastically from regular core-collapse supernova (CCSN) models and is expected to be seen in very metal-poor (VMP) stars of [Fe/H] ≲ −2. Despite the routine discovery of many VMP stars, the unique abundance pattern expected from PISNe has not been unambiguously detected. The recently discovered VMP star LAMOST J1010 + 2358, however, shows a peculiar abundance pattern that is remarkably well fit by a PISN, indicating the potential first discovery of a bonafide star born from gas polluted by a PISN. In this paper, we study the detailed nucleosynthesis in a large set of models of CCSN of Pop III and Pop II star of metallicity [Fe/H] = −3 with masses ranging from 12 to |$30\, \mathrm{M}_\odot$|⁠. We find that the observed abundance pattern in LAMOST J1010 + 2358 can be fit at least equally well by CCSN models of ∼12– |$14\, \mathrm{M}_\odot$| that undergo negligible fallback following the explosion. The best-fitting CCSN models provide a fit that is even marginally better than the best-fitting PISN model. We conclude the measured abundance pattern in LAMOST J1010 + 2358 could have originated from a CCSN and therefore cannot be unambiguously identified with a PISN given the set of elements measured in it to date. We identify key elements that need to be measured in future detections in stars like LAMOST J1010 + 2358 that can differentiate between CCSN and PISN origin. [ABSTRACT FROM AUTHOR]

Published

2024

45. Theoretical Constraints on Neutron-Mirror-Neutron Oscillation.

Author

Babu, Kaladi S. and Mohapatra, Rabindra N.

Subjects

OSCILLATIONS, INFLATIONARY universe, NEUTRINOS, FERMIONS, NEUTRONS, SYMMETRY breaking, NUCLEOSYNTHESIS

Abstract

Mirror models lead to the possibility that neutron (n) can oscillate into its mirror partner ( n ′ ), inspiring several experimental searches for this phenomenon. The condition for observability of this oscillation is a high degree of degeneracy between the n and n ′ masses, which can be guaranteed if there is exact parity symmetry taking all particles to their mirror partners. However, consistency of these models with big-bang nucleosynthesis requires that this parity symmetry be broken in the early universe in a scenario called asymmetric inflation. In this paper, we study the consistency of an observable n − n ′ oscillations signal with asymmetric inflation and derive various theoretical constraints. In particular, we find that the reheat temperature after inflation should lie below 2.5 TeV, and we predict a singlet fermion with a mass below 100 GeV. In simple models, where the right-handed neutrino is a mediator of baryon-number-violating interactions, we find that the light neutrinos are Dirac fermions with their masses arising radiatively through one-loop diagrams. [ABSTRACT FROM AUTHOR]

Published

2022

46. Challenges and Requirements in High-Precision Nuclear Astrophysics Experiments.

Author

Gyürky, György

Subjects

NUCLEAR reactions, NUCLEAR astrophysics, ASTRONOMICAL observations, NUCLEAR physics

Abstract

In the 21th century astronomical observations, as well as astrophysical models, have become impressively precise. For a better understanding of the processes in stellar interiors, the nuclear physics of astrophysical relevance—known as nuclear astrophysics—must aim for similar precision, as such precision is not reached yet in many cases. This concerns both nuclear theory and experiment. In this paper, nuclear astrophysics experiments are put in focus. Through the example of various parameters playing a role in nuclear reaction studies, the difficulties of reaching high precision and the possible solutions are discussed. [ABSTRACT FROM AUTHOR]

Published

2022

47. Charge-state resolved laser acceleration of gold ions to beyond 7 MeV/u.

Author

Lindner, F. H., Fitzpatrick, E. G., Haffa, D., Ponnath, L., Schmidt, A.-K., Speicher, M., Zielbauer, B., Schreiber, J., and Thirolf, P. G.

Subjects

HEAVY ions, GOLD, LASERS, IONS, NUCLEOSYNTHESIS, NUCLEAR reactions

Abstract

In the past years, the interest in the laser-driven acceleration of heavy ions in the mass range of A ≈ 200 has been increasing due to promising application ideas like the fission-fusion nuclear reaction mechanism, aiming at the production of neutron-rich isotopes relevant for the astrophysical r-process nucleosynthesis. In this paper, we report on the laser acceleration of gold ions to beyond 7 MeV/u, exceeding for the first time an important prerequisite for this nuclear reaction scheme. Moreover, the gold ion charge states have been detected with an unprecedented resolution, which enables the separation of individual charge states up to 4 MeV/u. The recorded charge-state distributions show a remarkable dependency on the target foil thickness and differ from simulations, lacking a straight-forward explanation by the established ionization models. [ABSTRACT FROM AUTHOR]

Published

2022

48. Constraining Antimatter Domains in the Early Universe with Big Bang Nucleosynthesis

Author

Elina Sihvola and Hannu Kurki-Suonio

Subjects

Big Bang, Physics::General Physics, Nuclear Theory, Photochemistry, Astronomy, media_common.quotation_subject, General Physics and Astronomy, FOS: Physical sciences, Astrophysics, Helium, Nuclear Theory (nucl-th), Electromagnetic Fields, High Energy Physics - Phenomenology (hep-ph), Big Bang nucleosynthesis, Nucleosynthesis, Alpher–Bethe–Gamow paper, Nuclear Experiment (nucl-ex), Nuclear Experiment, Big Bounce, media_common, Physics, Astrophysics (astro-ph), Universe, High Energy Physics - Phenomenology, Photodisintegration, Antimatter

Abstract

We consider the effect of a small-scale matter-antimatter domain structure on big bang nucleosynthesis and place upper limits on the amount of antimatter in the early universe. For small domains, which annihilate before nucleosynthesis, this limit comes from underproduction of He-4. For larger domains, the limit comes from He-3 overproduction. Most of the He-3 from antiproton-helium annihilation is annihilated also. The main source of He-3 is photodisintegration of He-4 by the electromagnetic cascades initiated by the annihilation., Comment: 4 pages, 2 figures, revtex, (slightly shortened)

Published

1999

49. Primordial chemistry: an overview

Author

M. Signore and D. Puy

Subjects

Physics, Big Bang, Astrophysics and Astronomy, media_common.quotation_subject, Astronomy, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics, Cosmology, Abundance of the chemical elements, Universe, Big Bang nucleosynthesis, Nucleosynthesis, Alpher–Bethe–Gamow paper, Astrophysics::Solar and Stellar Astrophysics, Astrophysical plasma, Astrophysics::Galaxy Astrophysics, media_common

Abstract

In the standard Big Bang model, the light elements in the cosmos -hydrogen and helium but also deuterium and lithium- were created in the very early Universe. The main problem is to connect what we can actually observe to day with the standard Big Bang nucleosynthesis predictions essentially because of uncertainties in modeling their evolution since the Big Bang. After a brief review of the primordial nucleosynthesis -predictions and observations of the primordial abundances- we present the preliminary studies of the primordial chemistry: molecular formation and evolution in the early Universe.

Published

1999

50. The age of the universe from nuclear chronometers

Author

J. W. Truran

Subjects

Multidisciplinary, Age of the universe, White dwarf, Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Biology, Galaxy, law.invention, Marine chronometer, Nucleosynthesis, law, Globular cluster, Colloquium Paper, Astrophysics::Solar and Stellar Astrophysics, Radiometric dating, Astrophysics::Earth and Planetary Astrophysics, Astrophysics::Galaxy Astrophysics

Abstract

An overview is presented of the current situation regarding radioactive dating of the matter of which our Galaxy is comprised. A firm lower bound on the age from nuclear chronometers of ≈9–10 Gyr is entirely consistent with age determinations from globular clusters and white dwarf cooling histories. The reasonable assumption of an approximately uniform nucleosynthesis rate yields an age for the Galaxy of 12.8 ± 3 Gyr, which again is consistent with current determinations from other methods.

Published

1998