Gotowe bibliografie tematyczne / Triple differential cross section (TDCS)

Gotowa bibliografia na temat „Triple differential cross section (TDCS)”

Autor: Grafiati

Data publikacji: 4 czerwca 2021

Data aktualizacji: 20 lutego 2023

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Artykuły w czasopismach na temat "Triple differential cross section (TDCS)"

Purohit, Ghanshyam. "Calculation of Electron Impact Single Ionization TDCS of Tungsten Atoms at 200, 500 and 1000 eV". Atoms 9, nr 2 (7.06.2021): 31. http://dx.doi.org/10.3390/atoms9020031.

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We report triple differential cross-sections (TDCSs) for the electron impact single ionization of tungsten atoms for the ionization taking place from the outer sub shells of tungsten atoms, viz. W (6s), W (5d), W (5p) and W (4f). The study of the electron-induced processes such as ionization, excitation, autoionization from tungsten and its charged states is strongly required to diagnose and model the fusion plasma in magnetic devices such as Tokamaks. Particularly, the cross-section data are important to understand the electron spectroscopy involved in the fusion plasma. In the present study, we report TDCS results for the ionization of W atoms at 200, 500 and 1000 eV projectile energy at different values of scattered electron angles. It was observed that the trends of TDCSs for W (5d) are significantly different from the trends of TDCSs for W (6s), W (5p) and W (4f). It was further observed that the TDCS for W atoms has sensitive dependence on value of momentum transfer and projectile energy.

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Pandey, Alpana, i Ghanshyam Purohit. "TDCS Calculation for the Ionization of Nitrogen Molecule by Electron Impact". Atoms 10, nr 2 (18.05.2022): 50. http://dx.doi.org/10.3390/atoms10020050.

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Triple differential cross section (TDCS) results are reported for the electron impact ionization of nitrogen molecules. The TDCSs have been calculated in distorted wave Born formalism using orientation averaged molecular orbital (OAMO) approximation. The TDCS results are presented as average and weighted sum for the outer molecular orbital 3σg, 1πu, 2σu and the inner 2σg molecular orbital. The obtained theoretical TDCSs are compared with the available measurements. The results are analysed in terms of the positions and relative intensities of binary and recoil peaks. Within a first order model and for a complex molecule, a reasonable agreement is obtained with the experimental data in the binary peak region with certain discrepancies in position and magnitude in the recoil peak region.

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DeMars, C., S. Ward, J. Colgan, S. Amami i D. Madison. "Deep Minima in the Triply Differential Cross Section for Ionization of Atomic Hydrogen by Electron and Positron Impact". Atoms 8, nr 2 (29.05.2020): 26. http://dx.doi.org/10.3390/atoms8020026.

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We investigate ionization of atomic hydrogen by electron- and positron-impact. We apply the Coulomb–Born (CB1) approximation, various modified CB1 approximations, the three body distorted wave (3DW) approximation, and the time-dependent close-coupling (TDCC) method to electron-impact ionization of hydrogen. For electron-impact ionization of hydrogen for an incident energy of approximately 76.45 eV, we obtain a deep minimum in the CB1 triply differential cross section (TDCS). However, the TDCC for 74.45 eV and the 3DW for 74.46 eV gave a dip in the TDCS. For positron-hydrogen ionization (breakup) we apply the CB1 approximation and a modified CB1 approximation. We obtain a deep minimum in the TDCS and a zero in the CB1 transition matrix element for an incident energy of 100 eV with a gun angle of 56.13 ° . Corresponding to a zero in the CB1 transition matrix element, there is a vortex in the velocity field associated with this element. For both electron- and positron-impact ionization of hydrogen the velocity field rotates in the same direction, which is anticlockwise. All calculations are performed for a doubly symmetric geometry; the electron-impact ionization is in-plane and the positron-impact ionization is out-of-plane.

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Dawber, G., A. G. McConkey, H. Rojas, N. Gulley, G. C. King, L. Avaldi, M. Zubek, M. A. MacDonald i R. I. Hall. "Photodouble ionization of atoms and molecules near threshold". Canadian Journal of Physics 74, nr 11-12 (1.11.1996): 782–88. http://dx.doi.org/10.1139/p96-112.

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New experimental techniques have been applied to the study of single-photon double ionization of atoms and molecules. A coincidence technique is described in which the spectra of nearly zero energy photoelectrons are recorded in two identical photoelectron energy analysers. The results are discussed in terms of the available theoretical calculations. New techniques for the measurement of double differential cross sections (DDCS) and triple differential cross sections (TDCS) are discussed. New results using these techniques are presented, in which DDCS and TDCS are measured as continuous functions of photon energy.

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Lozano, Ana I., Filipe Costa, Xueguang Ren, Alexander Dorn, Lidia Álvarez, Francisco Blanco, Paulo Limão-Vieira i Gustavo García. "Double and Triple Differential Cross Sections for Single Ionization of Benzene by Electron Impact". International Journal of Molecular Sciences 22, nr 9 (27.04.2021): 4601. http://dx.doi.org/10.3390/ijms22094601.

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Experimental results for the electron impact ionization of benzene, providing double (DDCS) and triple differential cross sections (TDCS) at the incident energy of 90 eV, measured with a multi-particle momentum spectrometer, are reported in this paper. The most intense ionization channel is assigned to the parent ion (C6H6+) formation. The DDCS values are presented for three different transferred energies, namely 30, 40 and 50 eV. The present TDCS are given for two fixed values of the ejected electron energy (E2), at 5 and 10 eV, and an electron scattering angle (θ1) of 10°. Different features related to the molecular orbitals of benzene from where the electron is extracted are observed. In addition, a semi-empirical formula to be used as the inelastic angular distribution function in electron transport simulations has been derived from the present DDCS result and compared with other expressions available in the literature.

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Campeanu, R. I., i Colm T. Whelan. "Few Body Effects in the Electron and Positron Impact Ionization of Atoms". Atoms 9, nr 2 (9.06.2021): 33. http://dx.doi.org/10.3390/atoms9020033.

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Triple differential cross sections (TDCS) are presented for the electron and positron impact ionization of inert gas atoms in a range of energy sharing geometries where a number of significant few body effects compete to define the shape of the TDCS. Using both positrons and electrons as projectiles has opened up the possibility of performing complementary studies which could effectively isolate competing interactions that cannot be separately detected in an experiment with a single projectile. Results will be presented in kinematics where the electron impact ionization appears to be well understood and using the same kinematics positron cross sections will be presented. The kinematics are then varied in order to focus on the role of distortion, post collision interaction (pci), and interference effects.

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Kheifets, Anatoli S., i Igor Bray. "Helium Double Photoionisation: An Accurate Solution of a Three-body Coulomb Problem". Australian Journal of Physics 51, nr 4 (1998): 655. http://dx.doi.org/10.1071/p97095.

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We present here the solution of the helium double photoionisation problem by the convergent close-coupling (CCC) method. This method allows us to obtain the most detailed description of the double photoionisation process in the form of the fully resolved triply differential cross section (TDCS). The accuracy of our model is tested by calculating the TDCS in the three different forms of the electromagnetic operator which produces essentially identical results. We compare our calculation with the most accurate experimental and theoretical data available to date.

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Popov, Yu V., i C. Dal Cappello. "Theoretical developments in (e,2e) studies of excited states and in (e,3e) spectroscopy". Canadian Journal of Physics 74, nr 11-12 (1.11.1996): 843–49. http://dx.doi.org/10.1139/p96-120.

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The theory of single and double ionization of atoms deals with one of the most difficult problems in quantum mechanics: the scattering of a few charged particles. A large number of different (e,2e) experiments and theoretical calculations have helped us to understand the main physical mechanisms and their effect on the shape of triple differential cross section (TDCS). Recently the first deeply asymmetric (e,2e) experiments, leaving the residual ion in an excited state (which we indicate in this paper by (e,2e)*), and (e,3e) experiments have been performed. These offer new challenges to the theory. A very preliminary survey of main theoretical methods currently used to explain the experimental measurements is presented here. It will be shown that small differences in the choice of initial and final state models employed by different authors lead to large effects in both the shape and absolute size of the TDCS in the case of excitation ionization, even if these models give almost identical results for the (e,2e) case. A few physical mechanisms contributing to the (e,2e)* process are discussed in this paper. Special attention is given to the multichannel close-coupling method. (e,3e) experiments allow us to study the final state wave function with two continuum electrons. We obtain two unexpected results. First, we found that the two-step mechanism contribution is comparable and even bigger than that of shake-off. Second, the algorithms exploiting the angular decompositions of many-body continuum wave functions do not work in the case of long-range potentials; this is a result of the failure of the widely used diagonalization approximations in this case. The physical considerations that support these and other results are presented in this paper.

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Scherer, N., H. Lörch i V. Schmidt. "Triple differential cross section measurements in and". Journal of Physics B: Atomic, Molecular and Optical Physics 31, nr 19 (14.10.1998): L817—L822. http://dx.doi.org/10.1088/0953-4075/31/19/009.

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Sheridan, P., M. Grimm i E. Sokell. "Resonant triple-differential cross-section measurements on atomic strontium". Journal of Physics B: Atomic, Molecular and Optical Physics 41, nr 16 (7.08.2008): 165204. http://dx.doi.org/10.1088/0953-4075/41/16/165204.

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Rozprawy doktorskie na temat "Triple differential cross section (TDCS)"

Atkins, Danielle S., i N/A. "Electron Coincidence Studies of Molecules". Griffith University. School of Biomolecular and Physical Sciences, 2007. http://www4.gu.edu.au:8080/adt-root/public/adt-QGU20070920.112918.

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The electron-electron coincidence (e,2e) technique yields complete kinematical information about the electron impact ionization process. The (e,2e) technique has been widely used to study dynamical effects in ionizing collisions with atomic targets, however studies of molecular ionization using this technique have been very limited. Recently further experimental studies of small molecules have been proposed, as the cross sections of small molecules are now computable using sophisticated theoretical approaches [77, 24]. This thesis presents dynamical investigations for the electron impact ionization of the molecular targets H2O and H2, employing the (e,2e) technique to experimentally measure the triple differential cross section (TDCS). The TDCS is defined as the probability that a bound electron will be ejected from the target atom or molecule (into a particular direction with a defined energy) and the initial electron will be scattered into a particular direction with a particular energy. All TDCSs presented within this thesis were performed using an electron coincidence spectrometer in the coplanar asymmetric geometry at intermediate incident electron energies. This thesis presents the electron impact ionization TDCSs of H2O. A series of measurements were performed using H2O in the vapour form. Measurements of the TDCS are presented for the 2a1 atomic-like orbital and the 1b2, 3a1 and 1b1 molecular orbitals at a common incident electron energy of 250eV, ejected electron energy of 10eV and scattering angle of -15o. The experimental TDCSs are compared with theoretical cross sections that were calculated by Champion et al [25, 26] using a distorted wave Born approach (DWBA). TDCS measurements for the single ionization of the hydrogen molecule, H2 were performed as in recent years there has been evidence that indicates the ejected electron angular distribution is perturbed due to Young-type interference effects. The oscillatory structure which is predicted in the cross section is due to the two-centred nature of the molecule [27, 29]. This thesis presents experimental TDCSs for the ionization of H2 which are compared to TDCSs of helium. A series of measurements for the TDCSs of H2 and He are presented at a common incident electron energy of 250eV and scattering angle of -15o, for a range of ejected electron energies between 10eV and 100eV. The experimental TDCSs are compared with two types of theoretical calculations.

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Atkins, Danielle S. "Electron Coincidence Studies of Molecules". Thesis, Griffith University, 2007. http://hdl.handle.net/10072/367729.

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Armitage, Lewis. "Measurement of the Drell-Yan triple-differential cross-section in pp collisions at √s = 8 TeV with the ATLAS detector". Thesis, Queen Mary, University of London, 2017. http://qmro.qmul.ac.uk/xmlui/handle/123456789/24549.

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This thesis presents the measurement and results of the Z/γ* → μ⁺μ⁻ Drell-Yan triple-differential cross-section, using 20.24 fb⁻¹ of ATLAS data recorded in 2012 at a centre-of-mass energy of √s = 8TeV. The triple-differential cross-section is measured as a function of dimuon invariant mass, m_μμ, dimuon rapidity, γ_μμ , and lepton decay angle in the Collins-Soper frame, cosθ*. These dimensions provide sensitivity to the parton composition of the proton through the parton density functions, PDFs, and the weak effective mixing angle, sin²θeff./W, via the forward-backward asymmetry, A_FB. The measurement is performed on and around the Z-boson's invariant mass peak, 46 < m_μμ < 200 GeV, in a kinematic ducial volume of muon transverse momentum, pT > 20 GeV, and muon pseudo-rapidity |η|≤2.4. The results are unfolded from the detector level to the Born, bare and dressed levels, where a precision of < 0:6% is reported in the central bins. The data is combined with an electron channel measurement resulting in a combined result with reduced total uncertainty. The combined result is shown to constrain PDF uncertainties and achieve the most constrained sin²θeff./W uncertainty yet reported at the LHC.

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Savoiu, Daniel [Verfasser], i G. [Akademischer Betreuer] Quast. "Triple-Differential Measurement of the Dijet Cross Section at $\sqrts}$ = 13 TeV with the CMS Detector / Daniel Savoiu ; Betreuer: G. Quast". Karlsruhe : KIT-Bibliothek, 2021. http://d-nb.info/1228439273/34.

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Berger, Thomas [Verfasser], i G. [Akademischer Betreuer] Quast. "Jet energy calibration and triple differential inclusive cross section measurements with Z (→μμ) + jet events at 13 TeV recorded by the CMS detector / Thomas Berger ; Betreuer: G. Quast". Karlsruhe : KIT-Bibliothek, 2019. http://d-nb.info/120207670X/34.

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Hmouda, Bassem. "Étude détaillée du deuxième terme de l'approximation de Born : applications à l'ionisation de l'atome d’Hydrogène et à la double ionisation de l'atome d’Hélium par impact d’électrons et de positrons". Thesis, Université de Lorraine, 2014. http://www.theses.fr/2014LORR0383/document.

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Les méthodes perturbatives, telle que l’approximation de Born, sont nécessaires pour résoudre les problèmes inhérents à l’ionisation d’atomes et de molécules par impact d’électrons ou de positrons. Afin d’optimiser les calculs nécessaires pour le second terme de l’approximation de Born, nous avons commencé par étudier l’ionisation de l’atome le plus simple : celui d’hydrogène. Nous avons utilisé une base contenant un grand nombre d’états (294) nous permettant d’éviter la relation de fermeture qui nécessite l’introduction d’un paramètre qui représente la valeur moyenne d’excitation. Nos résultats ont montré un bon accord avec l’expérience surtout pour les faibles énergies des électrons éjectés. Nous avons ainsi pu montrer l’importance de la contribution des états du continuum (représentés par des pseudo-états), en particulier pour les transitions de type dipolaire. Pour la double ionisation de l’atome d’hélium, nous avons appliqué la même méthodologie de calcul numérique complet tout en incluant 20 états et pseudo-états intermédiaires et en utilisant une fonction d’onde corrélée d’interaction de configuration, on a trouvé pour les grandes énergies d’incidence (5 keV) que l’effet du terme Born 2 est presque nul. Par contre l’application de « SBA » avec la relation de fermeture pour l’état fondamental et les premiers états excités montre une petite différence avec « FBA » en particulier en dehors de la région du transfert. Dans le cas des faibles énergies d’incidence (601 eV) il était attendu d’obtenir un effet important de « SBA » surtout que des études sur les (e,3-1e) de l’hélium montrent un déplacement du pic principal par rapport à « FBA ». Donc on peut dire que les 20 états intermédiaires contribuent de façon insuffisante et qu’il faudra considérer beaucoup plus d’états
The perturbative methods, such as Born approximation, are necessary to solve the problems concerning the ionization of atoms and molecules by electrons or positrons impacts. In order to use Born approximation in an optimized way, we tested it on the simplest atom « Hydrogen » by using a basis of large amount of intermediate states (294) and complete numerical calculation without using the closure approximation whose application needs the introduction of a parameter which is the excitation mean value. Our results proved a significant agreement with the experiment particularly for small energies of the ejected electrons. We also proved an important contribution of the continuum (represented by the pseudo-states), and particularly the dipolar transition. For the double ionization of Helium atom, we applied the same methodology of complete calculation by including 20 intermediate states and pseudo-states and by using a configuration interaction wave function, we found that for high incident energy (5 keV) the effect of the second term of Born is almost zero. However, the application of the « SBA » with the closure approximation by using the fundamental state and the first excited states show a slight difference relative to the « FBA » particularly outside the transfer region. In case of low incident energy (601 eV), it was expected a crucial effect of the « SBA » especially that previous studies of (e, 3-1e) of Helium show a significant shift of the main peak relative to the « FBA ». So we can say that 20 intermediate states are not enough and the application of the « SBA » needs more states

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Mouawad, Lena. "Monte Carlo simulations and a theoretical study of the damage induced by ionizing particles at the macroscopic scale as well as the molecular scale". Thesis, Strasbourg, 2017. http://www.theses.fr/2017STRAE009/document.

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Le travail présenté dans cette thèse se place dans le contexte de la simulation de dommages biologiques. D'abord une étude macroscopique met en question la pertinence des plans de traitement basés sur la dose absorbée et le passage à une étude de micro-dosimétrie permet l'utilisation de paramètres biologiques plus pertinents, tels que les cassures de brins d'ADN. La validité des sections efficaces d'interaction sur lesquelles se basent ces simulations est discutée en plus de détails. Suite à la complexité du milieu biologique, les sections efficaces d'interaction avec l'eau sont souvent utilisées. Nous développons un algorithme qui permet de fournir les sections efficaces d'ionisation pour n'importe quelle cible moléculaire, en utilisant des outils qui permettent de surmonter les difficultés de calcul, ce qui rend notre programme particulièrement intéressant pour les molécules complexes. Nous fournissons des résultats pour l'eau, l'ammoniac, l'acide formique et le tétrahydrofurane
The work presented in this thesis can be placed in the context of biological damage simulation. Webegin with a macroscopic study where we question the relevance of absorbed-dose-based treatmentplanning. Then we move on to a micro-dosimetry study where we suggest the use of morebiologically relevant probes for damage, such as DNA strand breaks. More focus is given to thefundamental considerations on which the simulations are based, particularly the interaction crosssections. Due to the complexity of the biological medium, the interaction cross sections with waterare often used to simulate the behavior of particles. We develop a parallel user-friendly algorithmthat can provide the ionization cross sections for any molecular target, making use of particular toolsthat allow to overcome the computational difficulties, which makes our program particularlyinteresting for complex molecules. We provide preliminary results for water, ammonia, formic acidand Tetrahydrofuran

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Benedek, Árpád. "Triple differential cross section calculations for the ionization of molecular hydrogen and helium by position impact /". 2007. http://gateway.proquest.com/openurl?url_ver=Z39.88-2004&res_dat=xri:pqdiss&rft_val_fmt=info:ofi/fmt:kev:mtx:dissertation&rft_dat=xri:pqdiss:NR29318.

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Thesis (Ph.D.)--York University, 2007. Graduate Programme in Physics and Astronomy.
Typescript. Includes bibliographical references (leaves 99-102). Also available on the Internet. MODE OF ACCESS via web browser by entering the following URL: http://gateway.proquest.com/openurl?url_ver=Z39.88-2004&res_dat=xri:pqdiss&rft_val_fmt=info:ofi/fmt:kev:mtx:dissertation&rft_dat=xri:pqdiss:NR29318

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Części książek na temat "Triple differential cross section (TDCS)"

Zhang, X., Colm T. Whelan i H. R. J. Walters. "Distorted-Wave Calculations of Triple Differential Cross Section for Inner Shell Ionization". W (e, 2e) & Related Processes, 409–21. Dordrecht: Springer Netherlands, 1993. http://dx.doi.org/10.1007/978-94-011-2036-4_30.

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Rasch, J., Colm T. Whelan, R. J. Allan i H. R. J. Walters. "The Normalisation of the Experimental Triple Differential Cross Section of Noble Gas Atoms in Extreme Asymmetric Geometry". W Coincidence Studies of Electron and Photon Impact Ionization, 305–18. Boston, MA: Springer US, 1997. http://dx.doi.org/10.1007/978-1-4757-9751-0_36.

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Streszczenia konferencji na temat "Triple differential cross section (TDCS)"

Khajuria, Y. "(e, 2e) Triple differential cross section of argon at 64.6 eV". W CORRELATIONS,POLARIZATION,AND IONIZATION IN ATOMIC SYSTEMS:Proceedings of the International Symposium on(e,2e),Double Photoionization and Related Topics and the Eleventh International Symposium on Polarization and Correlation in Electronic and Atomic .... AIP, 2002. http://dx.doi.org/10.1063/1.1449353.

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Raporty organizacyjne na temat "Triple differential cross section (TDCS)"

Di Loreto, Gian Giuseppe. The Triple differential dijet cross-section at $\sqrt{s}$ = 1.8-TeV. Office of Scientific and Technical Information (OSTI), styczeń 1998. http://dx.doi.org/10.2172/1421678.

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Nang, Freedy. The Measurement of the Inclusive Triple Differential Dijet Cross Section at D0. Office of Scientific and Technical Information (OSTI), maj 1996. http://dx.doi.org/10.2172/1421761.

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Khatiwada, Ajeeta. Measurement of the Triple Differential Cross Section for Photon+Jet Events with the CMS Detector at a Center of Mass Energy of 8 TeV. Office of Scientific and Technical Information (OSTI), styczeń 2016. http://dx.doi.org/10.2172/1440320.

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Abachi, S. Measurement of inclusive triple differential dijet cross section, d{sup 3}{sigma}/dE{sub T}d{eta}{sub 1}d{eta}{sub 2} in p{bar p} collisions at {radical}s = 1.8 TeV. Office of Scientific and Technical Information (OSTI), lipiec 1995. http://dx.doi.org/10.2172/96930.

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