We show that multiple-shear spectral shearing interferometry can overcome the relative phase ambiguity of disjoint spectral components that is present in single-shear approaches. By upconverting the unknown pulse with spatially chirped ancillae, we achieve a shear-to-space mapping that can be acquired on an imaging spectrometer. A subset of this continuous range of shears can be chosen for robust and accurate phase retrieval using a multiple-shear algorithm
Ultrashort optical pulses are integral to various fields. Thus, the characterization of these pulses...
Vectorial Shearing Interferometer is able to select variable shear and tilt along any wavefront dire...
Speckle interferometry is a well established technique for the optical characterization of rough obj...
We show that multiple-shear spectral shearing interferometry can overcome the relative phase ambigui...
We demonstrate improved accuracy and consistency for spectral-shearing in-terferometry using multipl...
A new spectral shearing interferometry technique for ultrashort pulse characterization is demonstrat...
We demonstrate that multiple spectral-shearing interferometry increases the precision and accuracy o...
I present several new methods for the characterisation of ultrashort pulses using interferometry.A g...
We demonstrate a novel imaging approach and associated reconstruction algorithm for far-field cohere...
We introduce a novel method for retrieving the phase from a spectral shearing interferogram, based o...
A simple, compact, and robust implementation of spectral shearing interferometry using a single nonl...
We analyze spectral phase extraction from a measured structured spectral shearing interference with ...
We report a version of spectral phase interferometry for direct electric field reconstruction (SPIDE...
Diffractive shearing interferometry (DSI) is a method that has recently been developed to perform le...
We demonstrate increased accuracy and precision in the reconstruction of the multidimensional phase ...
Ultrashort optical pulses are integral to various fields. Thus, the characterization of these pulses...
Vectorial Shearing Interferometer is able to select variable shear and tilt along any wavefront dire...
Speckle interferometry is a well established technique for the optical characterization of rough obj...
We show that multiple-shear spectral shearing interferometry can overcome the relative phase ambigui...
We demonstrate improved accuracy and consistency for spectral-shearing in-terferometry using multipl...
A new spectral shearing interferometry technique for ultrashort pulse characterization is demonstrat...
We demonstrate that multiple spectral-shearing interferometry increases the precision and accuracy o...
I present several new methods for the characterisation of ultrashort pulses using interferometry.A g...
We demonstrate a novel imaging approach and associated reconstruction algorithm for far-field cohere...
We introduce a novel method for retrieving the phase from a spectral shearing interferogram, based o...
A simple, compact, and robust implementation of spectral shearing interferometry using a single nonl...
We analyze spectral phase extraction from a measured structured spectral shearing interference with ...
We report a version of spectral phase interferometry for direct electric field reconstruction (SPIDE...
Diffractive shearing interferometry (DSI) is a method that has recently been developed to perform le...
We demonstrate increased accuracy and precision in the reconstruction of the multidimensional phase ...
Ultrashort optical pulses are integral to various fields. Thus, the characterization of these pulses...
Vectorial Shearing Interferometer is able to select variable shear and tilt along any wavefront dire...
Speckle interferometry is a well established technique for the optical characterization of rough obj...