Litcius/Paper detail

Sensitive detection of electric field-induced second harmonic signals

Justin Hogue, Patrick Cusson, Michel Meunier, Denis V. Seletskiy, Stephan Reuter

2023Optics Letters17 citationsDOI

Abstract

We demonstrate sensitive electric field measurements by coherent homodyne amplification of the electric field induced second harmonic generation (E-FISH) technique. In the process of E-FISH, an applied electric field breaks the centrosymmetry of an otherwise homogeneous medium, in turn promoting the generation of the second harmonic frequency of an incident field. Due to weak third-order hyperpolarizability and the requirement of an applied field to break the symmetry, the E-FISH technique has been mainly used to study high fields, also requiring a strong optical field and sensitive detection. Here we superimpose the E-FISH signal with an auxiliary beam, also termed a local oscillator (LO), at double the incident frequency. Coherent superposition of the LO and the E-FISH output (LOE-FISH) allows for a homodyne amplification of the otherwise weak nonlinear signal. We have demonstrated an increase of signal-to-noise by a factor of seven, which results in a measurement time reduction of a factor of 49. This technique, LOE-FISH, has a number of advantages: detection with intensified detectors is not required. Furthermore, instead of millijoule pulsed lasers, we can work with microjoule pulsed lasers, which allows measuring at repetition rates of megahertz and opens single shot and real-time capability. The LOE-FISH technique increases in sensitivity at lower electric field values. Our work is a demonstration of the principle. Already with our first results from the demonstration, one can see the high potential of LOE-FISH.

Topics & Concepts

OpticsElectric fieldHomodyne detectionPhysicsSIGNAL (programming language)Superposition principleHigh harmonic generationLaserHarmonicComputer scienceAcousticsQuantum mechanicsProgramming languageLaser-Matter Interactions and ApplicationsSpectroscopy and Quantum Chemical StudiesAdvanced Fiber Laser Technologies