Lisa Ackermann scite author profile

Lisa Ackermann

5Publications

20Citation Statements Received

0Citation Statements Given

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138

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University of Erlangen-Nuremberg

Publications

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Tomographic refractive index profiling of direct laser written waveguides

et al. 2021

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The fabrication of complex integrated photonic devices via direct laser writing is a powerful and rapidly developing technology. However, the approach is still facing several challenges. One of them is the reliable quantitative characterization of refractive index (RI) changes induced upon laser exposure. To this end, we develop a tomographic reconstruction algorithm following a modern optimization approach, relying on accelerated proximal gradient descent, based on intensity images only. Very recently, such algorithms have become the state of the art in the community of bioimaging, but have never been applied to direct laser written structures such as waveguides. We adapt the algorithm to our concern of characterizing these translation-invariant structures and extend it in order to jointly estimate the aberrations introduced by the imaging system. We show that a correct estimation of these aberrations is necessary to make use of data recorded at larger angles and that it can increase the fidelity of the reconstructed RI profiles. Moreover, we present a method allowing to cross-validate the RI reconstructions by comparing en-face widefield images of thin waveguide sections with matching simulations based on the retrieved RI profile.

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Uniform and efficient beam shaping for high-energy lasers

2021

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Phase-only beam shaping with liquid crystal on silicon spatial light modulators (SLM) allows modulating the wavefront dynamically and generating arbitrary intensity patterns with high efficiency. Since this method cannot take control of all degrees of freedom, a speckle pattern appears and drastically impairs the outcome. There are several methods to overcome this issue including algorithms which directly control phase and amplitude, but they suffer from low efficiency. Methods using two SLMs yield excellent results but they are usually limited in the applicable energy due to damage to the SLM’s backplane. We present a method which makes use of two SLMs and simultaneously gives way for high-energy laser applications. The algorithm and setup are designed to keep the fluence on the SLMs low by distributing the light over a large area. This provides stability against misalignment and facilitates experimental feasibility while keeping high efficiency.

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Enhanced spin–orbit coupling in an epsilon-near-zero material

Banzer

Eismann

Ackermann³

et al. 2022

Optica

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Light can carry both spin and orbital angular momentum. While it is known that a nonparaxial circularly polarized beam couples the spin angular momentum to orbital angular momentum, this phenomenon does not hold upon collimation of the field. With the rising interest in epsilon-near-zero photonics, integral ingredients to this field are the beam-shaping capabilities of such a regime. In this work, it is experimentally shown that a permanent conversion of spin-to-orbital angular momentum arises naturally from an incident circularly polarized field on an isotropic interface due to the asymmetry in the Fresnel coefficients. More significantly, the conversion efficiency can be substantially enhanced in the presence of an epsilon-near-zero film due to the unique Fresnel properties exhibited in such a regime. It is further shown that the conversion efficiency scales with the nonparaxiality of the incident field. Our study showcases the intriguing phenomena resulting from the combination of concepts as old as Fresnel coefficients and modern materials such as epsilon-near-zero films.

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High-speed speckle averaging for phase-only beam shaping in laser materials processing

Ackermann

Roider

Gehring

et al. 2023

Optics and Lasers in Engineering

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Refractive index tomography of direct fs-laser written waveguides

Barré

Shivaraman

Ackermann

et al. 2022

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Lisa Ackermann

Tomographic refractive index profiling of direct laser written waveguides

Uniform and efficient beam shaping for high-energy lasers

Enhanced spin–orbit coupling in an epsilon-near-zero material

High-speed speckle averaging for phase-only beam shaping in laser materials processing

Refractive index tomography of direct fs-laser written waveguides

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