@article{2022-pfeifer-meschede-app-phys-b-v128-p29, Abstract = {
Fabry–Perot interferometers have stimulated numerous scientific and technical applications ranging from high-resolution spectroscopy over metrology, optical filters, to interfaces of light and matter at the quantum limit and more. End facet machining of optical fibers has enabled the miniaturization of optical Fabry–Perot cavities. Integration with fiber wave guide technology allows for small yet open devices with favorable scaling properties including mechanical stability and compact mode geometry. These fiber Fabry–Perot cavities (FFPCs) are stimulating extended applications in many fields including cavity quantum electrodynamics, optomechanics, sensing, nonlinear optics and more. Here we summarize the state of the art of devices based on FFPCs, provide an overview of applications and conclude with expected further research activities.
}, Author = {Pfeifer, H. AND Ratschbacher, L. AND Gallego, J. AND Saavedra, C. AND Faßbender, A. AND Haaren, A. v. AND Alt, W. AND Hofferberth, S. AND Köhl, M. AND Linden, S. AND Meschede, D.}, Journal = {App. Phys. B}, Pages = {29}, Title = {{Achievements and perspectives of optical fiber Fabry–Perot cavities}}, Volume = {128}, Year = {2022} }