Abstract
Photonic quantum information applications based on time-frequency (TF) modes of ultrafast quantum states of light hold the promise of exploiting the benefits of high-dimensional information encoding and, at the same time, easy integrability into existing communication networks. Here we present tools and waveguide devices for the controlled generation, complete characterization and mode-selective manipulation and detection of ultrafast quantum states with tailored TF mode structure.
© 2014 Optical Society of America
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