13 research outputs found
Media 2: Stand-alone system for high-resolution, real-time terahertz imaging
Originally published in Optics Express on 30 January 2012 (oe-20-3-2772
Media 3: Stand-alone system for high-resolution, real-time terahertz imaging
Originally published in Optics Express on 30 January 2012 (oe-20-3-2772
Media 1: Stand-alone system for high-resolution, real-time terahertz imaging
Originally published in Optics Express on 30 January 2012 (oe-20-3-2772
Media 4: Stand-alone system for high-resolution, real-time terahertz imaging
Originally published in Optics Express on 30 January 2012 (oe-20-3-2772
Supplementary document for Picosecond pulses from a gain-switched quantum cascade laser - 6262936.pdf
Picosecond pulses from a gain-switched quantum cascade lase
Supplementary_video3.gif
Animated electric-field distribution (the phase of the incident field is changing) for upper polariton at 621 GHz at a low magnetic field of B = 10 mT to show the confined upper polariton mode in the central defect (w=1.5 μm) of the plasmonic reflectors (related to Fig. 3, left panel, coupled resonator with the reflector structure and a cap layer etched to h=90 nm)
Supplementary_video2.gif
Animated electric-field distribution (the phase of the incident field is changing) for upper polariton at 607 GHz at a low magnetic field of B = 10 mT to show the partially confined upper polariton mode in the central defect (w=1.5 μm) of the plasmonic reflectors (related to Fig. 3, central panel, coupled resonator with the reflector structure and a cap layer etched to h=80 nm)
Supplementary_video1.gif
Animated electric-field distribution (the phase of the incident field is changing) for upper polariton at 565 GHz at a low magnetic field of B = 10 mT to show the excitation of plasmonic waves acting as a loss channel for the polaritonic mode (related to Fig. 3, right panel, coupled resonator without the reflector)
Supplement 1: Dispersion engineering of quantum cascade laser frequency combs
Supplemental document Originally published in Optica on 20 March 2016 (optica-3-3-252