Multiphoton fluorescence excitation with real intermediary states

J. David Wong-Campos; Mackenzie Dion

arXiv:2501.18706·physics.optics·February 3, 2025

Multiphoton fluorescence excitation with real intermediary states

J. David Wong-Campos, Mackenzie Dion

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TL;DR

This paper demonstrates a method for generating fluorescence via sequential multiphoton excitation involving real intermediary states, opening new avenues for optical control of molecular excitation pathways.

Contribution

It introduces a novel approach using real intermediary states for multiphoton fluorescence excitation, expanding the possibilities for molecular control.

Findings

01

Fluorescence achieved through sequential multiphoton process

02

Potential for new optical control techniques

03

Exploration of previously uncharted excitation pathways

Abstract

We demonstrate fluorescence generation through a sequential multiphoton process with real intermediary states. Our findings suggest new directions for optical control of previously unexplored molecular excitation pathways.

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Taxonomy

TopicsAdvanced Fluorescence Microscopy Techniques · Laser-Matter Interactions and Applications · Photoreceptor and optogenetics research