Ptychographic Iterative Engine

Ptychographic Iterative Engine - Multiple light beams generated by. Ptychographical iterative engine (pie) is an attractive modality of phase retrieval that can provide the quantitative phase of the sample and extend the field of view. In this paper, we revisit the first such algorithm, the ptychographical iterative engine (pie), and show how a simple revision and powerful extension can deliver an order of magnitude speed. The ptychographic iterative engine (pie) algorithm [7] proposed by prof. Rodenburg is a powerful phase retrieval method with the advantages of cdi [8] and ptychography [9, 10]. Our results demonstrate that these new techniques significantly improve the convergence properties of the pie numerical optimization problem.

In this paper, we revisit the first such algorithm, the ptychographical iterative engine (pie), and show how a simple revision and powerful extension can deliver an order of magnitude speed. Ptychographic iterative engine (pie) is proposed to retrieve the scattered wavefront from diffraction patterns that are recorded at a set of laterally scanning positions with a specific. An optical alignment and a corresponding reconstruction algorithm are proposed to realize a single shot ptychographical iterative engine (pie). The ptychographic iterative engine (pie) algorithm [7] proposed by prof. As a lensfree imaging technique, ptychographic iterative engine (pie) can provide quantitative amplitude and phase distributions of samples in an extremely large field of view.

Diagram of the ptychographic iterative engine (PIE) algorithm. Download Scientific Diagram

The ptychographic iterative engine (pie) 12,13 is an iterative phase retrieval approach employing the diffraction patterns as a known illumination function. Our results demonstrate that these new techniques significantly improve the convergence properties of the pie numerical optimization problem. Ptychographical iterative engine (pie) is an attractive modality of phase retrieval that can provide the quantitative phase of the sample and.

(PDF) Ptychographic iterative diffraction microscopy with laser light Othmar Marti Academia.edu

In this paper, we revisit the first such algorithm, the ptychographical iterative engine (pie), and show how a simple revision and powerful extension can deliver an order of magnitude speed. The ptychographic iterative engine (pie) algorithm [7] proposed by prof. Rodenburg is a powerful phase retrieval method with the advantages of cdi [8] and ptychography [9, 10]. The ptychographic iterative.

Thin line simple blue iterative icon concept Stock Vector Image & Art Alamy

Ptychographic iterative engine (pie) is proposed to retrieve the scattered wavefront from diffraction patterns that are recorded at a set of laterally scanning positions with a specific. As a lensfree imaging technique, ptychographic iterative engine (pie) can provide quantitative amplitude and phase distributions of samples in an extremely large field of view. Rodenburg is a powerful phase retrieval method with.

iteration, iterative process icon, linear design Stock Vector Image & Art Alamy

In this paper, we revisit the first such algorithm, the ptychographical iterative engine (pie), and show how a simple revision and powerful extension can deliver an order of magnitude speed. Our results demonstrate that these new techniques significantly improve the convergence properties of the pie numerical optimization problem. Ptychographic iterative engine (pie) is proposed to retrieve the scattered wavefront from.

Diagram of the ptychographic iterative engine (PIE) algorithm. Download Scientific Diagram

Ptychographic iterative engine (pie) is proposed to retrieve the scattered wavefront from diffraction patterns that are recorded at a set of laterally scanning positions with a specific. Rodenburg is a powerful phase retrieval method with the advantages of cdi [8] and ptychography [9, 10]. The ptychographic iterative engine (pie) algorithm [7] proposed by prof. As a lensfree imaging technique, ptychographic.

Ptychographic Iterative Engine - Our results demonstrate that these new techniques significantly improve the convergence properties of the pie numerical optimization problem. An optical alignment and a corresponding reconstruction algorithm are proposed to realize a single shot ptychographical iterative engine (pie). As a lensfree imaging technique, ptychographic iterative engine (pie) can provide quantitative amplitude and phase distributions of samples in an extremely large field of view. The first occurrence of an iterative algorithm was the ptychographic iterative engine (pie) [5], which addressed the ptychographic reconstruction problem through sequential updates. Multiple light beams generated by. The ptychographic iterative engine (pie) 12,13 is an iterative phase retrieval approach employing the diffraction patterns as a known illumination function.

In this paper, we revisit the first such algorithm, the ptychographical iterative engine (pie), and show how a simple revision and powerful extension can deliver an order of magnitude speed. Our results demonstrate that these new techniques significantly improve the convergence properties of the pie numerical optimization problem. The ptychographic iterative engine (pie) 12,13 is an iterative phase retrieval approach employing the diffraction patterns as a known illumination function. Multiple light beams generated by. Ptychographical iterative engine (pie) is an attractive modality of phase retrieval that can provide the quantitative phase of the sample and extend the field of view.

Ptychographical Iterative Engine (Pie) Is An Attractive Modality Of Phase Retrieval That Can Provide The Quantitative Phase Of The Sample And Extend The Field Of View.

The first occurrence of an iterative algorithm was the ptychographic iterative engine (pie) [5], which addressed the ptychographic reconstruction problem through sequential updates. The ptychographic iterative engine (pie) algorithm [7] proposed by prof. Multiple light beams generated by. An optical alignment and a corresponding reconstruction algorithm are proposed to realize a single shot ptychographical iterative engine (pie).

Ptychographic Iterative Engine (Pie) Is Proposed To Retrieve The Scattered Wavefront From Diffraction Patterns That Are Recorded At A Set Of Laterally Scanning Positions With A Specific.

In this paper, we revisit the first such algorithm, the ptychographical iterative engine (pie), and show how a simple revision and powerful extension can deliver an order of magnitude speed. The ptychographic iterative engine (pie) 12,13 is an iterative phase retrieval approach employing the diffraction patterns as a known illumination function. Rodenburg is a powerful phase retrieval method with the advantages of cdi [8] and ptychography [9, 10]. Our results demonstrate that these new techniques significantly improve the convergence properties of the pie numerical optimization problem.

As A Lensfree Imaging Technique, Ptychographic Iterative Engine (Pie) Can Provide Quantitative Amplitude And Phase Distributions Of Samples In An Extremely Large Field Of View.