Down to the quantum dot

(Forschungszentrum Juelich) Using a single molecule as a sensor, scientists in Julich have successfully imaged electric potential fields with unrivaled precision. The 3-D technique is also contact-free. The first results achieved using 'scanning quantum dot microscopy' have been published as an editor's suggestion in Physical Review Letters and selected as a Viewpoint in Physics.

Jan 15th, 2016
(Forschungszentrum Juelich) Using a single molecule as a sensor, scientists in Julich have successfully imaged electric potential fields with unrivaled precision. The 3-D technique is also contact-free. The first results achieved using 'scanning quantum dot microscopy' have been published as an editor's suggestion in Physical Review Letters and selected as a Viewpoint in Physics.
More in Home
John Ambroseo, President and CEO of Coherent.
Lasers & Sources
Business Forum: Laser markets evolve, price battles continue—an interview with John Ambroseo
Andreas ThossJohn Lewis
Aug 13th, 2019
Test & Measurement
QCL-based infrared spectroscopic ellipsometer rapidly acquires data
John Wallace
Aug 13th, 2019
1908 Lfw Nb F3
Optics
Large-field cryogenic objective mirror has nearly diffraction-limited performance
John Wallace
Aug 13th, 2019
1908 Lfw Nb F2
Optics
Metasurface optic for Gaussian beams accepts a nonplanar input beam
John Wallace
Aug 13th, 2019
1908 Lfw Nb F1
Fiber Optics
Nanoparticle-embedded stretchy optical fibers monitor body temperature
Gail Overton
Aug 13th, 2019
A microresonator pumped with a CW laser (a) produces a microcomb with stable or chaotic behavior, as well as pure quartic soliton (PQS) pulse trains depending on the pump frequency (b). A high-energy random initial state will evolve with time and settle to a stable pulse with near-Gaussian power profile (c) and uniform power spectrum having a remarkable 3 dB bandwidth (d).
Lasers & Sources
Frequency-comb Sources: One microresonator-based soliton comb replaces multiple WDM lasers
Gail Overton
Aug 13th, 2019
A fast, low-cost, highly sensitive diffuse optical imaging system acquires optical transmission images dorsally to provide objective, quantitative analysis for rheumatoid arthritis (RA) diagnosis and monitoring.
Test & Measurement
Spectroscopy/Optical Imaging: Fourier-transform analysis helps optical method improve RA detection
Barbara Gefvert
Aug 13th, 2019
Several rotationally symmetric cavities are etched into a silicon wafer for glassblowing of 0.9-mm-diameter (left) and 1.8 mm (right) axicons.
Optics
Optical Fabrication: Glassblowing technique creates arrays of axicon lenses
John Wallace
Aug 13th, 2019
Shown are tuning curves for three quantum dots positioned on the waveguide at the locations shown in the inset, to achieve identical emission (a). High-resolution Fabry-Perot interferometer measurements show all three quantum dots simultaneously from an output coupler with identical emission wavelength (b).
Lasers & Sources
Quantum Sources: Squeezed quantum dots create coherent streams of quantum-ready photons
Gail Overton
Aug 13th, 2019
FIGURE 1. In the scalable setting of a spatial photonic Ising machine, binary spins are encoded in the phase of a laser beam (green) by spatial modulation. Tailoring of the beam’s amplitude fixes spin-spin interaction. To find the ground-state spin configuration, the machine recurrently evolves according to a feedback signal from the camera plane. By design, maximizing the intensity in a target region (blue square) corresponds to a spin state with minimum energy.
Software
Photonics Modeling: Optical Ising machines solve complex engineering, science, and even business problems
Aug 13th, 2019