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Autori principali: Zhu, Yichen, Li, Zifeng, Li, Xiaopeng, Sun, Jiacheng, Yang, Baichuan, Cui, Yi, Li, Tao
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2512.01180
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author Zhu, Yichen
Li, Zifeng
Li, Xiaopeng
Sun, Jiacheng
Yang, Baichuan
Cui, Yi
Li, Tao
author_facet Zhu, Yichen
Li, Zifeng
Li, Xiaopeng
Sun, Jiacheng
Yang, Baichuan
Cui, Yi
Li, Tao
contents We present a new holographic approach for generating large scale, polarization resolved optical tweezer arrays. By analyzing the ideal Jones fields that realize a target pattern, we identify that the fundamental degrees of freedom are the relative phases of the individual tweezers, rather than the full spatial phase profile. Leveraging this insight, we formulate a reverse projection optimization that adjusts only a small set of phase parameters to approximate the ideal operator within the physical constraints of a metasurface. This produces significantly higher fidelity and robustness than Gerchberg_Saxton type algorithms. Experimentally, we demonstrate H, V, L, and R polarized tweezer arrays using a single layer metasurface. A key advantage of our method is its phase stability, yielding strong resistance to optical aberrations and enabling coherent global phase modulation such as forming vortex tweezer lattice, without degrading trap quality. This framework provides a conceptually clear and experimentally powerful route for scalable optical field synthesis.
format Preprint
id arxiv_https___arxiv_org_abs_2512_01180
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Metasurface Holography on a Relative-Phase Manifold for Stable and High Fidelity Tweezer-Array Generation
Zhu, Yichen
Li, Zifeng
Li, Xiaopeng
Sun, Jiacheng
Yang, Baichuan
Cui, Yi
Li, Tao
Optics
We present a new holographic approach for generating large scale, polarization resolved optical tweezer arrays. By analyzing the ideal Jones fields that realize a target pattern, we identify that the fundamental degrees of freedom are the relative phases of the individual tweezers, rather than the full spatial phase profile. Leveraging this insight, we formulate a reverse projection optimization that adjusts only a small set of phase parameters to approximate the ideal operator within the physical constraints of a metasurface. This produces significantly higher fidelity and robustness than Gerchberg_Saxton type algorithms. Experimentally, we demonstrate H, V, L, and R polarized tweezer arrays using a single layer metasurface. A key advantage of our method is its phase stability, yielding strong resistance to optical aberrations and enabling coherent global phase modulation such as forming vortex tweezer lattice, without degrading trap quality. This framework provides a conceptually clear and experimentally powerful route for scalable optical field synthesis.
title Metasurface Holography on a Relative-Phase Manifold for Stable and High Fidelity Tweezer-Array Generation
topic Optics
url https://arxiv.org/abs/2512.01180