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A/Prof Rajib Rahman https://physics.unsw.edu.au/staff/rajib-rahman PDF¸½¼þÎÞ·¨ÉÏ´«£¬ÄÚÈݸ´ÖƹýÀ´ÏÔʾÓÐÃô¸ÐÄÚÈÝ£¬ÇëÖ±½ÓÁªÏµRajib Rahman rajib.rahman@unsw.edu.au ÒÔÏÂΪ¹ã¸æµÄ²¿·ÖÄÚÈÝ£º Postdoctoral Position in Computational Quantum Science and Engineering at the University of New South Wales, Sydney, Australia Group Leader: Dr. Rajib Rahman, Associate Professor of Physics, UNSW. Affiliation: School of Physics, Centre for Quantum Computer and Communication Technologies. Relevant areas: Quantum Computing, Solid-state Physics, Quantum Physics, Quantum Material Science, Computational science. Backgrounds in computational condensed matter Physics or solid-state electronics are preferred. Description of research: We develop computational techniques and software for modeling solid-state quantum bits. We work closely with world-leading experimental groups to understand their experimental measurements and also to guide them in designing quantum systems. Our work involves multi-scale modeling of quantum materials and devices ranging from atomistic to effective mass finite-element based methods and from first principles to empirical methods for electronic structure and transport simulations. We are interested to study couplings of electrons with phonons, photons, and other electrons and quasi-particles, and utilize these interactions to design quantum computing platforms. In the context of silicon qubits, our work has modeled the single and two qubit gates with quantum dots and dopants, and proposed designs that can enhance lifetime and electron-electron couplings. Beyond quantum computing, we are also interested in low-energy electronics as a replacement of CMOS for future electronics, and are interested in emerging materials with exotic properties that can be harnessed in functional devices. Our work has been documented in a variety of journals including those of Nature and Science groups, physical review letters, nanoletters and IEEE journals [1-11]. Expectations: The postdoc will primarily be working on Phosphorus impurity qubits in silicon with the computational tools and techniques developed in Prof. Rahman¡¯s group. The postdoc is also expected to perform computational methods development relevant to modeling quantum systems. The postdoc will be working with PhD students also on joint projects. The candidate will also collaborate with experimental groups at the quantum computing center at UNSW and elsewhere. Application process: The interested candidates should send their curriculum vita to Prof. Rahman at rajib.rahman@unsw.edu.au. |
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