Marc Noordam
YOU?
Author Swipe
View article: Diffraction-based overlay metrology using polarization-resolved dark-field digital holographic microscopy
Diffraction-based overlay metrology using polarization-resolved dark-field digital holographic microscopy Open
Background: Accurate pattern positioning precision between two layers in a chip stack, known as an overlay (OV), is crucial in semiconductor device manufacturing. To facilitate the ongoing trend in the semiconductor industry to fabricate i…
View article: Correcting spurious apodization effects in digital holographic microscopy using a simple Fourier transform spectrometer
Correcting spurious apodization effects in digital holographic microscopy using a simple Fourier transform spectrometer Open
The use of quasi-monochromatic light in digital holographic microscopy can lead to spurious apodization effects. The resulting image degradation can be corrected by compensating for this effect if the spectrum of the light source is known.…
View article: Enhancing diffraction-based overlay metrology capabilities in digital holographic microscopy using model-based signal separation
Enhancing diffraction-based overlay metrology capabilities in digital holographic microscopy using model-based signal separation Open
Background: The continuous shrink of device dimensions in the semiconductor industry drives the need to improve optical microscopy techniques that are often used in overlay metrology. Achieving sub-nanometer overlay metrology precision req…
View article: Full Temporal Characterization of Ultrabroadband Few-Cycle Laser Pulses Using Atomically Thin WS<sub>2</sub>
Full Temporal Characterization of Ultrabroadband Few-Cycle Laser Pulses Using Atomically Thin WS<sub>2</sub> Open
Nowadays, the accurate and full temporal characterization of ultrabroadband few-cycle laser pulses with pulse durations below 7 fs is of great importance in fields of science that investigate ultrafast dynamic processes. There are several …
View article: Simultaneous Characterization of Two Ultrashort Optical Pulses at Different Frequencies Using a WS<sub>2</sub> Monolayer
Simultaneous Characterization of Two Ultrashort Optical Pulses at Different Frequencies Using a WS<sub>2</sub> Monolayer Open
The precise characterization of ultrashort laser pulses has been of interest to the scientific community for many years. Frequency-resolved optical gating (FROG) has been extensively used to retrieve the temporal and spectral field distrib…
View article: Position‐Controlled Fabrication of Vertically Aligned Mo/MoS<sub>2</sub> Core–Shell Nanopillar Arrays
Position‐Controlled Fabrication of Vertically Aligned Mo/MoS<sub>2</sub> Core–Shell Nanopillar Arrays Open
The fabrication of 2D materials, such as transition metal dichalcogenides (TMDs), in geometries beyond the standard platelet‐like configuration exhibits significant challenges which severely limit the range of available morphologies. These…
View article: Nonlinear Optical Response of a WS<sub>2</sub> Monolayer at Room Temperature upon Multicolor Laser Excitation
Nonlinear Optical Response of a WS<sub>2</sub> Monolayer at Room Temperature upon Multicolor Laser Excitation Open
Currently, the nonlinear optical properties of 2D materials are attracting the attention of an ever-increasing number of research groups due to their large potential for applications in a broad range of scientific disciplines. Here, we inv…
View article: Author Correction: Rapid gate-based spin read-out in silicon using an on-chip resonator
Author Correction: Rapid gate-based spin read-out in silicon using an on-chip resonator Open
View article: Rapid gate-based spin read-out in silicon using an on-chip resonator
Rapid gate-based spin read-out in silicon using an on-chip resonator Open
View article: Rapid high-fidelity gate-based spin read-out in silicon
Rapid high-fidelity gate-based spin read-out in silicon Open
Silicon spin qubits form one of the leading platforms for quantum computation. As with any qubit implementation, a crucial requirement is the ability to measure individual quantum states rapidly and with high fidelity. As the signal from a…