Wavefront Shaping with varying degrees of freedom

Maël Hubert; Bert Mulder; Timon Jan Vreman; Tamara Tromp; Ad Lagendijk; Willem L. Vos

Wavefront Shaping with varying degrees of freedom

Maël Hubert, Bert Mulder, Timon Jan Vreman, Tamara Tromp, Ad Lagendijk, Willem L. Vos

Research output: Contribution to conference › Poster › Academic

Abstract

Optical WaveFront Shaping (WFS) uses the physical feature that whereas light scattering is complex, it is a linear process, thus deterministic. The incident wavefront is controlled to focus light through a scattering sample, by spatially dividing an incoming wavefront and modulating the resulting segments with Spatial Light Modulators (SLMs) or Digital Micromirror Devices (DMDs) paired with a holography system.
The main criterion for such a process is the enhancement of the intensity at the target, defined as the ratio of the optimized intensity at the target, and the average intensity at the target for many realizations of the scattering sample.
We focus on the effect of restricting the degrees of freedom of the phase modulating devices on the optimization performance. By turning off certain segments, which contribute very little to the optimization, it is possible to greatly shorten optimizations without a significant loss in enhancement. By shrinking the active area of segments, issues with holography systems occur, as small segments and phase transitions negatively affect performance.
Our results lead to better choices regarding the areas of interest and limits of such optimizations to improve speed and efficiency, which are relevant for WFS applications.

Original language	English
Publication status	Published - 20 Jan 2025
Event	NWO Physics 2025 - Koningshof, Veldhoven, Netherlands Duration: 21 Jan 2025 → 22 Jan 2025

Conference

Conference	NWO Physics 2025
Country/Territory	Netherlands
City	Veldhoven
Period	21/01/25 → 22/01/25

1 Participating in a conference, workshop, ...

NWO Physics 2025
Mulder, B. (Participant)
21 Jan 2025 → 22 Jan 2025
Activity: Participating in or organising an event › Participating in a conference, workshop, ...

1 Other
1 Poster

Wavefront Shaping Demo-Setup
Goodwin, M. J., Vos, W. L., Vreman, T. J., Alferink, N., Alferink, N., Hubert, M. & Lagendijk, A., 21 Jan 2025.
Research output: Contribution to conference › Other › Academic
Wavefront Shaping with varying degrees of freedom
Hubert, M., Mulder, B., Vreman, T. J., Tromp, T., Lagendijk, A. & Vos, W. L., 2 Dec 2024.
Research output: Contribution to conference › Poster › Academic

Cite this

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title = "Wavefront Shaping with varying degrees of freedom",

abstract = "Optical WaveFront Shaping (WFS) uses the physical feature that whereas light scattering is complex, it is a linear process, thus deterministic. The incident wavefront is controlled to focus light through a scattering sample, by spatially dividing an incoming wavefront and modulating the resulting segments with Spatial Light Modulators (SLMs) or Digital Micromirror Devices (DMDs) paired with a holography system.The main criterion for such a process is the enhancement of the intensity at the target, defined as the ratio of the optimized intensity at the target, and the average intensity at the target for many realizations of the scattering sample. We focus on the effect of restricting the degrees of freedom of the phase modulating devices on the optimization performance. By turning off certain segments, which contribute very little to the optimization, it is possible to greatly shorten optimizations without a significant loss in enhancement. By shrinking the active area of segments, issues with holography systems occur, as small segments and phase transitions negatively affect performance.Our results lead to better choices regarding the areas of interest and limits of such optimizations to improve speed and efficiency, which are relevant for WFS applications.",

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TY - CONF

T1 - Wavefront Shaping with varying degrees of freedom

AU - Hubert, Maël

AU - Mulder, Bert

AU - Vreman, Timon Jan

AU - Tromp, Tamara

AU - Lagendijk, Ad

AU - Vos, Willem L.

PY - 2025/1/20

Y1 - 2025/1/20

N2 - Optical WaveFront Shaping (WFS) uses the physical feature that whereas light scattering is complex, it is a linear process, thus deterministic. The incident wavefront is controlled to focus light through a scattering sample, by spatially dividing an incoming wavefront and modulating the resulting segments with Spatial Light Modulators (SLMs) or Digital Micromirror Devices (DMDs) paired with a holography system.The main criterion for such a process is the enhancement of the intensity at the target, defined as the ratio of the optimized intensity at the target, and the average intensity at the target for many realizations of the scattering sample. We focus on the effect of restricting the degrees of freedom of the phase modulating devices on the optimization performance. By turning off certain segments, which contribute very little to the optimization, it is possible to greatly shorten optimizations without a significant loss in enhancement. By shrinking the active area of segments, issues with holography systems occur, as small segments and phase transitions negatively affect performance.Our results lead to better choices regarding the areas of interest and limits of such optimizations to improve speed and efficiency, which are relevant for WFS applications.

AB - Optical WaveFront Shaping (WFS) uses the physical feature that whereas light scattering is complex, it is a linear process, thus deterministic. The incident wavefront is controlled to focus light through a scattering sample, by spatially dividing an incoming wavefront and modulating the resulting segments with Spatial Light Modulators (SLMs) or Digital Micromirror Devices (DMDs) paired with a holography system.The main criterion for such a process is the enhancement of the intensity at the target, defined as the ratio of the optimized intensity at the target, and the average intensity at the target for many realizations of the scattering sample. We focus on the effect of restricting the degrees of freedom of the phase modulating devices on the optimization performance. By turning off certain segments, which contribute very little to the optimization, it is possible to greatly shorten optimizations without a significant loss in enhancement. By shrinking the active area of segments, issues with holography systems occur, as small segments and phase transitions negatively affect performance.Our results lead to better choices regarding the areas of interest and limits of such optimizations to improve speed and efficiency, which are relevant for WFS applications.

M3 - Poster

T2 - NWO Physics 2025

Y2 - 21 January 2025 through 22 January 2025

ER -

Wavefront Shaping with varying degrees of freedom

Abstract

Conference

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Activities

NWO Physics 2025

Research output

Wavefront Shaping Demo-Setup

Wavefront Shaping with varying degrees of freedom

Cite this