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André Pilan Zanoni
Researcher at CERN
Publications - 20
Citations - 132
André Pilan Zanoni is an academic researcher from CERN. The author has contributed to research in topics: Computer science & Engineering. The author has an hindex of 3, co-authored 5 publications receiving 89 citations. Previous affiliations of André Pilan Zanoni include Airbus Defence and Space.
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Journal ArticleDOI
Macroscopic Quantum Resonators (MAQRO): 2015 update
Rainer Kaltenbaek,Markus Aspelmeyer,Peter Barker,Angelo Bassi,James Bateman,Kai Bongs,Sougato Bose,Claus Braxmaier,Claus Braxmaier,Časlav Brukner,Časlav Brukner,Bruno Christophe,Michael Chwalla,Pierre-François Cohadon,A. M. Cruise,Catalina Curceanu,Kishan Dholakia,Lajos Diósi,Klaus Döringshoff,Wolfgang Ertmer,Jan Gieseler,Norman Gürlebeck,Gerald Hechenblaikner,Gerald Hechenblaikner,Antoine Heidmann,Sven Herrmann,Sabine Hossenfelder,Ulrich Johann,Nikolai Kiesel,Myungshik Kim,Claus Lämmerzahl,Astrid Lambrecht,Michael Mazilu,Gerard J. Milburn,Holger Müller,Lukas Novotny,Mauro Paternostro,Achim Peters,Igor Pikovski,André Pilan Zanoni,André Pilan Zanoni,Ernst M. Rasel,Serge Reynaud,Charles Jess Riedel,Manuel Rodrigues,Loïc Rondin,Albert Roura,Wolfgang P. Schleich,Wolfgang P. Schleich,Jörg Schmiedmayer,Thilo Schuldt,Keith Schwab,Martin Tajmar,Guglielmo M. Tino,Hendrik Ulbricht,Rupert Ursin,Vlatko Vedral,Vlatko Vedral +57 more
TL;DR: The Macroscopic Quantum Resonators (MAQROI) project as mentioned in this paper proposes a mission to probe the quantum transition for increasingly massive objects, testing the predictions of quantum theory for objects in a size and mass regime unachievable in ground-based experiments.
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Thermal performance of a radiatively cooled system for quantum optomechanical experiments in space
André Pilan Zanoni,Johannes Burkhardt,Ulrich Johann,Markus Aspelmeyer,Rainer Kaltenbaek,Gerald Hechenblaikner +5 more
TL;DR: In this article, the performance of a radiatively cooled instrument was investigated for an orbit around a Lagrangian point and for a highly elliptical Earth orbit, where the environment of a test particle in a quantum superposition has to be cooled to less than 20 K.
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Performance of implicit A-stable time integration methods for multibody system dynamics
TL;DR: In this paper , the performance of several representative implicit A-stable time integration methods with algorithmic dissipation for multibody system dynamics, formulated as a set of mixed implicit first-order differential and algebraic equations, is analyzed.
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Method for thermal and structural evaluation of shallow intense-beam deposition in matter
TL;DR: In this paper, a method using layered elements is presented to simulate energy deposition using a manageable number of elements, which is applied to beam stoppers and accidental intense-beam impact onto UHV sector valves.
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A novel explicit three-sub-step time integration method for wave propagation problems
TL;DR: In this article , a novel explicit three-sub-step time integration method is proposed, which is designed to have at least second-order accuracy, tunable stability interval and tunable algorithmic dissipation.