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Journal articles on the topic 'Leibnitz'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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1

Loday, Jean-louis. "CUP-Product for Leibnitz Cohomology and Dual Leibniz Algebras." MATHEMATICA SCANDINAVICA 77 (December 1, 1995): 189. http://dx.doi.org/10.7146/math.scand.a-12560.

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2

Kienle, Paul. "Heinz Maier-Leibnitz." Physics Today 54, no. 8 (August 2001): 65–66. http://dx.doi.org/10.1063/1.1404859.

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3

Polovinkina, A. V., and T. V. Skoraya. "CONDITION OF FINITENESS OF COLENGTH OF VARIETY OF LEIBNITZ ALGEBRAS." Vestnik of Samara University. Natural Science Series 20, no. 10 (May 29, 2017): 84–90. http://dx.doi.org/10.18287/2541-7525-2014-20-10-84-90.

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This paper is devoted to the varieties of Leibnitz algebras over a field of zero characteristic. All information about the variety in case of zero characteristic of the base field is contained in the space of multilinear elements of its relatively free algebra. Multilinear component of variety is considered as a module of symmetric group and splits into a direct sum of irreducible submodules, the sum of multiplicities of which is called colength of variety. This paper investigates the identities that are performed in varieties with finite colength and also the relationship of this varieties with known varieties of Lie and Leibnitz algebras with this property. We prove necessary and sufficient condition for a finiteness of colength of variety of Leibnitz algebras.
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4

Cuvier, C. "Algèbres de Leibnitz : définitions, propriétés." Annales scientifiques de l'École normale supérieure 27, no. 1 (1994): 1–45. http://dx.doi.org/10.24033/asens.1687.

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5

Jolley, Nicholas. "Causality and Creation in Leibnitz." Monist 81, no. 4 (1998): 591–611. http://dx.doi.org/10.5840/monist199881430.

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6

Springer, T., and A. Heidemann. "Maier-leibnitz and neutron optics." Neutron News 13, no. 1 (January 2002): 32–36. http://dx.doi.org/10.1080/10448630208222873.

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7

Neuhaus, Jürgen. "Heinz Maier-Leibnitz Zentrum Inaugurated." Neutron News 24, no. 3 (July 2013): 5. http://dx.doi.org/10.1080/10448632.2013.804352.

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8

Mössbauer, Rudolf L. "Nachruf auf Heinz Maier-Leibnitz." Physik Journal 57, no. 2 (February 2001): 73. http://dx.doi.org/10.1002/phbl.20010570216.

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9

Schönegger, Sigrid. "NADA im Psychosozialen Dienst Leibnitz." Deutsche Zeitschrift für Akupunktur 62, no. 1 (January 29, 2019): 43–44. http://dx.doi.org/10.1007/s42212-019-0147-y.

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10

Kienle, P. "Heinz Maier-Leibnitz zum Fünfundsiebzigsten." Physik Journal 42, no. 3 (March 1986): 86. http://dx.doi.org/10.1002/phbl.19860420314.

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11

Michaelis, A. R. "Konrad Bloch and Heinz Maier-Leibnitz." Interdisciplinary Science Reviews 26, no. 1 (January 2001): 8–9. http://dx.doi.org/10.1179/030801801679340.

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12

Ackoff, Russell L. "Philosophy as I remember it: Leibnitz." Systems Practice 7, no. 2 (April 1994): 121–22. http://dx.doi.org/10.1007/bf02169658.

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13

Kienle, P. "Heinz Maier-Leibnitz zum 80. Geburtstag." Physik Journal 47, no. 3 (March 1991): 208–9. http://dx.doi.org/10.1002/phbl.19910470308.

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14

Skoraya, T. V., and A. V. Svetsova. "New Properties of Varieties of Leibnitz Algebras." Izvestiya of Saratov University. New Series. Series: Mathematics. Mechanics. Informatics 13, no. 4 (2013): 124–29. http://dx.doi.org/10.18500/1816-9791-2013-13-4-124-129.

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15

Mijajlovic, Z., N. Pejovic, G. Damljanovic, and D. Ciric. "Envelopes of cometary orbits." Serbian Astronomical Journal, no. 177 (2008): 101–7. http://dx.doi.org/10.2298/saj0877101m.

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We discuss cometary orbits from the standpoint of Nonstandard (Leibnitz) analysis, a relatively new branch of mathematics. In particular, we consider parabolic cometary paths. It appears that, in a sense, every parabola is an ellipse.
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16

Neuhaus, J., and W. Petry. "Correspondent's Report: Forschungsneutronenquelle Heinz Maier-Leibnitz (FRM II)." Neutron News 18, no. 2 (May 4, 2007): 13–15. http://dx.doi.org/10.1080/10448630701328356.

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17

Comte, C. "Was it possible for Leibnitz to discover relativity?" European Journal of Physics 7, no. 4 (October 1, 1986): 225–35. http://dx.doi.org/10.1088/0143-0807/7/4/003.

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18

Mitrovic, Darko. "On a Leibnitz type formula for fractional derivatives." Filomat 27, no. 6 (2013): 1141–46. http://dx.doi.org/10.2298/fil1306141m.

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19

Martin, H. G., and R. F. Talbot. "The solution of certain integrals by Leibnitz’ theorem." International Journal of Mathematical Education in Science and Technology 16, no. 1 (January 1985): 83–87. http://dx.doi.org/10.1080/0020739850160113.

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20

Shirali, Shailesh A. "Madhava, Gregory, Leibnitz, and sums of two squares." Resonance 15, no. 2 (February 2010): 116–23. http://dx.doi.org/10.1007/s12045-010-0013-9.

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21

Mutka, Hannu. "Ten Candles for FRM II, Maier-Leibnitz Zentrum Celebrates." Neutron News 26, no. 1 (January 2, 2015): 2. http://dx.doi.org/10.1080/10448632.2015.995974.

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22

Das, J. "A generalization of the Leibnitz rule of successive differentiation." International Journal of Mathematical Education in Science and Technology 33, no. 5 (September 2002): 739–42. http://dx.doi.org/10.1080/002073902320602888.

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23

Maslova, T. V. "UD-statistics in the Leibnitz approach to the humanities." Mathematical Notes 95, no. 1-2 (January 2014): 286–89. http://dx.doi.org/10.1134/s0001434614010313.

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24

Steinklauber, Ulla. "Die Akkulturation endet im Grab? Zum Gräberfeld am Frauenberg bei Leibnitz." Archaeologia Austriaca Band 96/2012 (2014): 127–32. http://dx.doi.org/10.1553/s127.

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25

Lindholm, F. A., and J. J. Liou. "Quasistatic capacitance ofp/njunction space‐charge layers by the Leibnitz rule." Journal of Applied Physics 63, no. 2 (January 15, 1988): 561–64. http://dx.doi.org/10.1063/1.340086.

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26

Kurrer, Karl-Eugen. "Hermann Maier-Leibnitz (1885-1962): Wegbereiter des Industriebaus der klassischen Moderne." Stahlbau 74, no. 8 (August 2005): 623–34. http://dx.doi.org/10.1002/stab.200590137.

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27

Brix, Peter. "Ehrenmitglieder der DPG: Laudationes auf Heinz Maier-Leibnitz und Wilhelm Walcher." Physik Journal 45, no. 7 (July 1989): 224. http://dx.doi.org/10.1002/phbl.19890450710.

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28

Malek, Abdul. "KEPLER – NEWTON – LEIBNIZ – HEGEL." JOURNAL OF ADVANCES IN PHYSICS 19 (September 15, 2021): 221–23. http://dx.doi.org/10.24297/jap.v19i.9106.

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Kepler’s Laws of planetary motion (following the Copernican revolution in cosmology), according to Leibniz and his follower Hegel, for the first-time in history discovered the keys to what Hegel called the absolute mechanics mediated by dialectical laws, which drives the celestial bodies, in opposition to finite mechanics in terrestrial Nature developed by mathematical and empirical sciences, but that are of very limited scope. Newton wrongly extended and imposed finite mechanics on the absolute mechanics of the cosmic bodies in the form of his Law of one-sided Universal Gravitational Attraction, by distorting and misrepresenting Kepler’s profound laws and in opposition to Leibniz’s more appropriate “Radial Planetary Orbital Equation”. The still-prevailing error by Newton (notwithstanding his well known manipulation of science for selfish ends), not only shows the limitation of mathematical idealism and prejudice driven modern cosmology in the form of Einstein’s theories of relativity; but also, have made gaining positive knowledge of the cosmos an impossibility and has impaired social/historical development of humanity by reinforcing decadent ruling ideas. Hegel’s Naturphilosophie is not only a protest against the misrepresentation of Kepler’s Laws in particular; his Enzyklopädie der Philosophischem Wissenschaften is the negation and the direct rebuttal of Newtonian physics and Philosophiæ Naturalis Principia Mathematica, in general. Modern natural science ignores Leibniz and Hegel at its own peril! Kepler’s phenomenological laws of planetary motion and the dialectical insights of Leibnitz and Hegel opens the way for gaining positive knowledge of the dynamics, structure and the evolution of the cosmic bodies and other cosmic phenomena; without invoking mysteries and dark/black cosmic entities, which has been the pabulum of official astrophysics and cosmology so far.
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29

Henri, V. A. "The role of Leibnitz in the establishment of scientific schools in Russia." Uspekhi Fizicheskih Nauk 169, no. 12 (1999): 1329. http://dx.doi.org/10.3367/ufnr.0169.199912f.1329.

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30

Henri, V. A. "The role of Leibnitz in the establishment of scientific schools in Russia." Physics-Uspekhi 42, no. 12 (December 31, 1999): 1223–25. http://dx.doi.org/10.1070/pu1999v042n12abeh000747.

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31

König, Wilfried A. "Book Review: Handbuch der Gaschromatographie. Edited by E. Leibnitz and G. Struppe." Angewandte Chemie International Edition in English 25, no. 6 (June 1986): 580. http://dx.doi.org/10.1002/anie.198605801.

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32

Mazour-Matusevitch, Yelena. "Thomas More’s Utopia, Gilbert Burnet and Peter the Great." Moreana 51 (Number 197-, no. 3-4 (December 2014): 211–30. http://dx.doi.org/10.3366/more.2014.51.3-4.12.

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The article presents a hypothesis concerning a possible connection between Thomas More’s Utopia and the conception of the Russian city of St. Petersburg. The study’s premise is that More’s utopian model might be at least indirectly responsible for Peter the Great’s familiarity, although relative and limited, with Plato’s concept of an ideal city, acquired during the tsar’s prolonged interaction with Utopia’s English translator Gilbert Burnet in 1698 in England. The study focuses in particular on one component of Plato’s utopian model—the idea of an invisible state machine and its adaptation by Thomas More, Gilbert Burnet, Gottfried Wilhelm Leibnitz and Peter the Great.
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33

Werner, L., M. Trunk, R. Gernhäuser, R. Gilles, B. Märkisch, and Zs Révay. "The new neutron depth profiling instrument N4DP at the Heinz Maier-Leibnitz Zentrum." Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 911 (December 2018): 30–36. http://dx.doi.org/10.1016/j.nima.2018.09.113.

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34

Simon, Bertrand. "Leibnitz et ses réseaux : des voies de la connaissance au commerce des lumières." Quaderni 39, no. 1 (1999): 77–85. http://dx.doi.org/10.3406/quad.1999.1412.

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35

Cui, Feng. "A Note on q-Derivative Operator and Divided Difference." Applied Mechanics and Materials 50-51 (February 2011): 377–81. http://dx.doi.org/10.4028/www.scientific.net/amm.50-51.377.

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The q-analogue of the derivative operator is playing a more and more important role in mathematics and physics. Moreover, the divided difference, as an important and classical mathematical tool with a close relation to the derivative, is also used in many fields. In this paper, the connection between the q-derivative and the divided difference is investigated such that the q-derivative can be understood better. The q-derivative of higher order of a function f can be represented by the divided difference of f at some special nodes. Furthermore, the result is used to provide a new and easier proof of q-Leibnitz formula and its generalization.
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36

Woolhouse, R. S. "John Toland and ‘Remarques Critiques sur le Systême de Monsr. Leibnitz de l’Harmonie préétablie’." Leibniz Society Review 8 (1998): 80–87. http://dx.doi.org/10.5840/leibniz199883.

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37

Brokmeier, Heinz Günter, Christian Randau, William Tekouo, Michael Hofmann, Wei Min Gan, Martin Müller, Andreas Schreyer, and Winfried Petry. "The Robot Concept at STRESS-SPEC for the Characterisation or Semi-Finished Products." Materials Science Forum 652 (May 2010): 197–201. http://dx.doi.org/10.4028/www.scientific.net/msf.652.197.

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The materials science diffractometer STRESS-SPEC located at Forschungsneutronen¬quelle Heinz Maier-Leibnitz (FRM-II) in Garching/Germany is a dedicated instrument for residual strain, texture and microstrain analysis. Comparably low gauge volumes of 1x1x1mm³ for gradient investigations in many types of materials can be investigated. A robot system consisting of a robot type Stäubli RX160, a laser tracker and a heavy vibration free basement was installed to overcome limitations in gradient investigations of residual stresses and crystallographic textures in semi-finished and finished products. The robot can carry up to 30kg with precise positioning. Al7020, an Al-alloy for airspace application, was used to perform a first global texture measurement using the robot.
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38

Burbadge, C., P. E. Garrett, G. C. Ball, V. Bildstein, A. Diaz Varela, M. R. Dunlop, R. Dunlop, et al. "Investigation of excited 0+ states in 160Er populated via the (p, t) two-neutron transfer reaction." EPJ Web of Conferences 178 (2018): 02025. http://dx.doi.org/10.1051/epjconf/201817802025.

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Many efforts have been made in nuclear structure physics to interpret the nature of low-lying excited 0+ states in well-deformed rare-earth nuclei. However, one of the difficulties in resolving the nature of these states is that there is a paucity of data. In this work, excited 0+ states in the N = 92 nucleus 160Er were studied via the 162Er(p, t)160Er two-neutron transfer reaction, which is ideal for probing 0+ → 0+ transitions, at the Maier-Leibnitz-Laboratorium in Garching, Germany. Reaction products were momentum-analyzed with a Quadrupole-3-Dipole magnetic spectrograph. The 0+2 state was observed to be strongly populated with 18% of the ground state strength.
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39

Shehu, Kaltrina, Cezary Bojanowski, Aurelien Bergeron, Winfried Petry, and Christian Reiter. "FIRST STEPS TO COUPLED HYDRAULIC AND MECHANICAL CALCULATIONS WITHIN A PARAMETER STUDY TO DEFINE POSSIBLE CORE DESIGNS FOR THE CONVERSION OF FRM II." EPJ Web of Conferences 247 (2021): 08011. http://dx.doi.org/10.1051/epjconf/202124708011.

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The Forschungs-Neutronenquelle Heinz Meier-Leibnitz (FRM II) is actively participating in the worldwide efforts on developing high-density uranium fuels in order to reduce the enrichment of fuels used in high flux research reactors. This work is part of a parameter study to define possible compatible FRM II core designs for conversion. As a first step, a code-to-code verification is performed and experimental data is used for validation. The Gambill experiment was performed in the early 1960’s in support of the HFIR program and provides results regarding the heat transfer coefficient and friction factors of water flowing through an electrically heated thin rectangular channel. A comparison is made between the Gambill Test and the results simulated by Ansys CFX and STAR-CCM+.
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40

Eckert, Michael. "Neutrons and Politics: Maier-Leibnitz and the Emergence of Pile Neutron Research in the FRG." Historical Studies in the Physical and Biological Sciences 19, no. 1 (January 1, 1988): 81–113. http://dx.doi.org/10.2307/27757617.

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41

Bergmann, Klaus. "La communication interculturelle en direct : Université de Bretagne Sud à Vannes / Université de Leibnitz à Hanovre." Recherche et pratiques pédagogiques en langues de spécialité - Cahiers de l APLIUT, Vol. XXVIII N° 2 (June 15, 2009): 86–97. http://dx.doi.org/10.4000/apliut.1136.

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42

Trunk, M., M. Wetjen, L. Werner, R. Gernhäuser, B. Märkisch, Zs Révay, H. A. Gasteiger, and R. Gilles. "Materials science applications of Neutron Depth Profiling at the PGAA facility of Heinz Maier-Leibnitz Zentrum." Materials Characterization 146 (December 2018): 127–34. http://dx.doi.org/10.1016/j.matchar.2018.09.030.

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43

Schrader, Tobias Erich, Andreas Ostermann, Michael Monkenbusch, Bernhard Laatsch, Philipp Jüttner, Winfried Petry, and Dieter Richter. "Neutron protein crystallography at the Heinz Meier-Leibnitz Zentrum (MLZ): new developments and recent application examples." Acta Crystallographica Section A Foundations and Advances 74, a2 (August 22, 2018): e177-e177. http://dx.doi.org/10.1107/s2053273318092562.

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44

Schrader, Tobias E., Andreas Ostermann, Michael Monkenbusch, Bernhard Laatsch, Philipp Jüttner, Winfried Petry, and Dieter Richter. "Neutron protein crystallography at the Heinz Maier-Leibnitz Zentrum (MLZ): new developments and recent application examples." Acta Crystallographica Section A Foundations and Advances 75, a2 (August 18, 2019): e134-e134. http://dx.doi.org/10.1107/s2053273319094221.

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45

Pylypyshyn, P. "MONADOLOGY AS A CHANGE TO INTERPRETATION OF INDIVIDUALITY IN THE PHILOSOPHY OF LAW OF G. LEIBNITZ." “International Humanitarian University Herald. Jurisprudence”, no. 49 (2021): 16–19. http://dx.doi.org/10.32841/2307-1745.2021.49.4.

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46

Yokoyama, Takeshi, Andreas Ostermann, Mineyuki Mizuguchi, Nobuo Niimura, Tobias E. Schrader, and Ichiro Tanaka. "Crystallization and preliminary neutron diffraction experiment of human farnesyl pyrophosphate synthase complexed with risedronate." Acta Crystallographica Section F Structural Biology Communications 70, no. 4 (March 25, 2014): 470–72. http://dx.doi.org/10.1107/s2053230x14004087.

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Nitrogen-containing bisphosphonates (N-BPs), such as risedronate and zoledronate, are currently used as a clinical drug for bone-resorption diseases and are potent inhibitors of farnesyl pyrophosphate synthase (FPPS). X-ray crystallographic analyses of FPPS with N-BPs have revealed that N-BPs bind to FPPS with three magnesium ions and several water molecules. To understand the structural characteristics of N-BPs bound to FPPS, including H atoms and hydration by water, neutron diffraction studies were initiated using BIODIFF at the Heinz Maier-Leibnitz Zentrum (MLZ). FPPS–risedronate complex crystals of approximate dimensions 2.8 × 2.5 × 1.5 mm (∼3.5 mm3) were obtained by repeated macro-seeding. Monochromatic neutron diffraction data were collected to 2.4 Å resolution with 98.4% overall completeness. Here, the first successful neutron data collection from FPPS in complex with N-BPs is reported.
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47

SASAKURA, NAOKI. "TENSOR MODELS AND HIERARCHY OF n-ARY ALGEBRAS." International Journal of Modern Physics A 26, no. 19 (July 30, 2011): 3249–58. http://dx.doi.org/10.1142/s0217751x1105381x.

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Tensor models are generalization of matrix models, and are studied as models of quantum gravity. It is shown that the symmetry of the rank-three tensor models is generated by a hierarchy of n-ary algebras starting from the usual commutator, and the 3-ary algebra symmetry reported in the previous paper is just a single sector of the whole structure. The condition for the Leibnitz rules of the n-ary algebras is discussed from the perspective of the invariance of the underlying algebra under the n-ary transformations. It is shown that the n-ary transformations which keep the underlying algebraic structure invariant form closed finite n-ary Lie subalgebras. It is also shown that, in physical settings, the 3-ary transformation practically generates only local infinitesimal symmetry transformations, and the other more nonlocal infinitesimal symmetry transformations of the tensor models are generated by higher n-ary transformations.
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48

Radulescu, Aurel, Noémi Kinga Székely, Stephan Polachowski, Marko Leyendecker, Matthias Amann, Johan Buitenhuis, Matthias Drochner, et al. "Tuning the instrument resolution using chopper and time of flight at the small-angle neutron scattering diffractometer KWS-2." Journal of Applied Crystallography 48, no. 6 (November 19, 2015): 1849–59. http://dx.doi.org/10.1107/s1600576715019019.

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Following demand from the user community regarding the possibility of improving the experimental resolution, the dedicated high-intensity/extendedQ-range SANS diffractometer KWS-2 of the Jülich Centre for Neutron Science at the Heinz Maier-Leibnitz Center in Garching was equipped with a double-disc chopper with a variable opening slit window and time-of-flight (TOF) data acquisition option. The chopper used in concert with a dedicated high-intensity velocity selector enables the tuning at will of the wavelength resolution Δλ/λ within a broad range, from 20% (standard) down to 2%, in a convenient and safe manner following pre-planned or spontaneous decisions during the experiment. The new working mode is described in detail, and its efficiency is demonstrated on several standard samples with known properties and on a completely new crystallizable copolymer system, which were investigated using both the conventional (static) and TOF modes.
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49

Schillinger, Burkhard, Amélie Beaudet, Anna Fedrigo, Francesco Grazzi, Ottmar Kullmer, Michael Laaß, Malgorzata Makowska, Ingmar Werneburg, and Clément Zanolli. "Neutron Imaging in Cultural Heritage Research at the FRM II Reactor of the Heinz Maier-Leibnitz Center." Journal of Imaging 4, no. 1 (January 14, 2018): 22. http://dx.doi.org/10.3390/jimaging4010022.

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50

Heusler, A. "High resolution particle spectroscopy in208Pb with the Q3D magnetic spectrograph of the Maier-Leibnitz-Laboratorium at München." Journal of Physics: Conference Series 267 (January 1, 2011): 012038. http://dx.doi.org/10.1088/1742-6596/267/1/012038.

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