I am interested in developing new methods for controlling atoms with light and vice versa. Examples include coherent control of atomic states and interactions with wideband laser pulses, and atomic spectroscopic imaging with holographic microscopy. I am also interested in developing new laser technologies to enable these researches. My team is looking for motivated you to join. Please email saijunwu @ fudan to discuss possibilities at student and postdoc levels or for visiting.

<p> Coordinate intra-group activities and external communications <p> <p> <strong>Degree: </strong>Bachelor of Engineering, 2019 </p> <p> <strong>Concentration: </strong>Internet of Things Engineering </p> <p> <strong>Contact: </strong>songhui @ fudan </p> <p> <strong>Hobbies: </strong>travel，painting，cate

<p> <strong>Grade:</strong> G6 PhD. Candidate </p> <p> <strong>Research area: </strong>Quantum control and atom interferometry </p> <p> <strong>Projects:</strong> Fast geometric control of electric dipoles. Nonlinear dynamics of optical spin-wave excitations. <br /> </p> <p> <strong>Hobbies: </strong>interesting things </p>

<p> <strong>Grade:</strong> G5 Ph.D. candidate </p> <p> <strong>Research area: </strong>Laser cooling and trapping, holographic imaging, data-driven precision measurements. </p> <p> <strong>Projects: </strong>Holographic 3D imaging of cold atom samples in sparse lattices.<br /> </p> <p> <strong>Additional topics:</strong>  Experimental automation. Coherent spectroscopy. Laser cooling. Machine learning. </p> <p> <strong>Hobbies:</strong> Travel, Movie

<p> <strong>Grade:</strong> G5 Ph.D Candidate </p> <p> <strong>Research area:</strong>  Nanophotonic quantum control </p> <p> <strong>Projects: </strong>Ultrafast pulse shaping and error-resilient quantum control at a nanofiber-atom interface. <br /> </p> <p> <strong>Additional topics: </strong>arbitrary optical pulse shaping with 30GHz bandwidth. Electric dipole error-resilient control </p> <p> <strong>Hobbies: Chess, Movie </p>

<p> <strong>Grade:</strong> G4 Ph.D. Candidate </p> <p> <strong>Research area: </strong>Nanophotonic quantum control. </p> <p> <strong>Projects: </strong>Two-dimensional magneto-optical trapping. Cold atom-nanofiber interface. <br /> </p> <p> <strong>Additional topics:</strong> Composite acousto-optical modulation </p>

<p> <strong>Grade:</strong> G4 Ph.D. Candidate </p> <p> <strong>Research area: </strong>Cold atoms and Quantum optics<br /> </p> <p> <strong>Projects:</strong> Acousto-optical routing and delay. Raman SDK, Raman Biased Rotations </p>

<p> <strong>Grade:</strong> G3 Student </p> <p> <strong>Projects: </strong>Composite AOM, Raman atom interferometry <br /> </p>

<p> <strong>Grade: </strong>G3 Student </p> <p> <strong>Projects: </strong>Picosecond Laser pulse shaping and quantum control applications <br /> </p>

<p> <strong>Grade: </strong>G2 student </p> <p> <strong>Research area: </strong>Quantum optics </p> <p> <strong>Projects: </strong>Cold atom- nanofiber interface.  </p> <p> <strong>Additional topics:</strong> Laser cooling and trapping. Atom interferometry  </p> <p>