Forward from: hossein
سخنرانی گروه فیزیک دانشگاه زنجان
عنوان سمینار: اطلاعات کوانتومی با یون های به دام افتاده
زمان: شنبه 8 اردیبهشت، از ساعت 1 تا 2
مکان: سالن سمینار دانشکده ی علوم
از همه ی علاقه مندان دعوت می کنیم در این سمینار، که آقای دنیل پین، دانشجوی دکتری از دانشگاه ماینز در آلمان، آن را ارائه خواهند کرد، شرکت فرمایند.
Quantum Information with Trapped Ions
Starting with a general introduction and a motivation for doing quantum information research, I will present the work that we do in Mainz, Germany with our segmented ion trap. We trap single ions or small crystals of Ca-40 in a Paul trap[1]. Using voltage ramps on the different segments we can split, merge, swap, and move these crystals[2,3]. In the quantum information framework every ion forms a single qubit. This gives us a fully reconfigurable register of qubits, which is the basis for a scalable quantum computer[4]. To be able to perform any quantum algorithm, we need a universal set of gates. In our case we use Raman transitions as single qubit operations and a geometrical phase gate as a mechanism to create entanglement between qubits[5]. Using this method we have created a 4-ion GHZ state with a fidelity of 94.4(3)%[6].
Literature:
[1] Ruster, T. et al. A long-lived Zeeman trapped-ion qubit. Appl. Phys. B 122, 254 (2016).
[2] Ruster, T. et al. Experimental realization of fast ion separation in segmented Paul traps. Phys. Rev. A 90, 033410 (2014).
[3] Kaufmann, H. et al. Fast ion swapping for quantum information processing. Phys. Rev. A 95, 052319 (2017).
[4] Schaetz, T. et al. Towards a scalable quantum computer/simulator based on trapped ions. Appl. Phys. B 79, 979-986 (2004).
[5] Leibfried, D. et al. Experimental demonstration of a robust, high-fidelity geometric two ion-qubit phase gate. Nature 422, 412-415 (2003).
[6] Kaufmann, H. et al., Scalable Creation of Long-Lived Multipartite Entanglement, Physical Review Letters 119, 150503 (2017).
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