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11:00 |
Q 19.1 |
OPEN-2QS: towards long observation timescales in trapped ion systems — •Larisa Thorne and Ferdinand Schmidt-Kaler
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11:15 |
Q 19.2 |
Trapped ion crystal setup for efficient recording of photon correlations — •Benjamin Zenz, Roman Rosenfeld, Corina Revora, Christian T. Schmiegelow, and Ferdinand Schmidt-Kaler
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11:30 |
Q 19.3 |
Framework for optimization of Paul trap design and control voltages for X-junction shuttling — •Andreas Conta, Ulrich Poschinger, Santiago Bogino, and Ferdinand Schmidt-Kaler
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11:45 |
Q 19.4 |
Characterization of a commercial 3D ion trap — •Martin Hesse, Ranjit K. Singh, Ole Ketterkat, Jannik Mattil, André P. Kulosa, Ulf Hinze, Nicolas Spethmann, and Tanja E. Mehlstäubler
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12:00 |
Q 19.5 |
Characterization of Inner Control Electrode Shapes for Multi-Layer Surface-Electrode Ion Traps — •Florian Ungerechts, Rodrigo Munoz, Janina Bätge, Masum Billah, Giorgio Zarantonello, and Christian Ospelkaus
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12:15 |
Q 19.6 |
Enhancing Trapped Ion Quantum Processor Scalability via Integrated Photonics and Microwave Technology — •Mohammad Masum Billah, Florian Ungerechts, Rodrigo Munoz, Phil Nuschke, Janina Bätge, Axel Hoffmann, Giorgio Zarantonello, Celeste Torkzaban, and Christian Ospelkaus
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12:30 |
Q 19.7 |
Advancements in ion trap quantum computing with multiple ion species — •David C. Stuhrmann, Sascha Agne, Najwa Al-Zaki, Erik Dunkel, Radhika Goyal, Tobias Pootz, Kevin Rempel, Celeste Torkzaban, and Christian Ospelkaus
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12:45 |
Q 19.8 |
Parallelising electronic qubit control for trapped-ion quantum computing — •Dougal Main, Jacopo Mosca Toba, Hannah Knaack, Susanna Todaro, Amy Hughes, Lukas Spiess, Justin Niedermayer, Clemens Matthiesen, Steven King, and Oxford Ionics team
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