Chris H. Sarantos scite author profile

A Mach-Zehnder modulator (MZM) based analog to digital converter (ADC) is described. The signal to be digitized is applied to a single electrode of a high speed unbalanced modulator that acts as a quantizer. The rest of the system consists of commercially available wavelength division multiplexing (WDM) components. Analysis indicates that 6 bit operation at 40 Giga Samples per second (GS/s) is possible with moderate optical carrier power.

Photon sorting in the near field using subwavelength cavity arrays in the near-infrared

Mandel

Gollub

et al. 2013

A frequency selective metasurface capable of sorting photons in the near-infrared spectral range is designed, fabricated, and characterized. The metasurface, a periodic array of dielectric cylindrical cavities in a gold film, localizes and transmits light of two spectral frequency bands into spatially separated cavities, resulting in near-field light splitting. The design and fabrication methodologies of the metasurface are discussed. The transmittance and photon sorting properties of the designed structure is simulated numerically and the measured transmission is presented.

All-optical streak camera

Heebner

2008

A Photonic Analog-to-Digital Converter Based on an Unbalanced Mach-Zehnder Quantizer

Dagli

2007

A Mach-Zehnder modulator (MZM) based analog to digital converter (ADC) design is described. A single high speed unbalanced modulator is utilized as a quantizer. The signal to be digitized is applied to a single electrode. The rest of the system consists of commercially available, well developed wavelength division multiplexing (WDM) components. Analysis indicates that this system could provide 6 bits of resolution at 40 giga samples per second (GS/s) with moderate optical power.

Solid-state ultrafast all-optical streak camera enabling high-dynamic-range picosecond recording

Heebner

2010

Opt. Lett.

We demonstrate an ultrafast optical recording system based on a novel optical beam deflection technique. An optical pump temporarily creates an array of prisms that deflect an optical signal beam within a GaAs/AlGaAs planar waveguide. The fabricated device yielded, to our knowledge, the fastest sustained optical deflection reported to date and was used to create spatial representations of ultrafast temporal waveforms. A conventional camera was then used to record single-shot waveforms with a 2.5 ps resolution over a 50 ps record with a dynamic range in excess of 3000:1. Through further development, this all-optical streak camera could provide insight into previously unmeasurable phenomena in many fields.