267 research outputs found
Numerical sampling rules for paraxial regime pulse diffraction calculations
Sampling rules for numerically calculating ultrashort pulse fields are discussed. Such pulses are not monochromatic
but rather have a finite spectral distribution about some central (temporal) frequency. Accordingly,
the diffraction pattern for many spectral components must be considered. From a numerical implementation
viewpoint, one may ask how many of these spectral components are needed to accurately calculate the pulse
field. Using an analytical expression for the Fresnel diffraction from a 1-D slit, we examine this question by
varying the number of contributing spectral components. We show how undersampling the spectral profile produces
erroneous numerical artifacts (aliasing) in the spatial–temporal domain. A guideline, based on graphical
considerations, is proposed that determines appropriate sampling conditions. We show that there is a relationship
between this sampling rule and a diffraction wave that emerges from the aperture edge; comparisons are
drawn with boundary diffraction waves. Numerical results for 2-D square and circular apertures are presented
and discussed, and a potentially time-saving calculation technique that relates pulse distributions in different
z planes is described
Numerical sampling rules for paraxial regime pulse diffraction calculations
Sampling rules for numerically calculating ultrashort pulse fields are discussed. Such pulses are not monochromatic
but rather have a finite spectral distribution about some central (temporal) frequency. Accordingly,
the diffraction pattern for many spectral components must be considered. From a numerical implementation
viewpoint, one may ask how many of these spectral components are needed to accurately calculate the pulse
field. Using an analytical expression for the Fresnel diffraction from a 1-D slit, we examine this question by
varying the number of contributing spectral components. We show how undersampling the spectral profile produces
erroneous numerical artifacts (aliasing) in the spatial–temporal domain. A guideline, based on graphical
considerations, is proposed that determines appropriate sampling conditions. We show that there is a relationship
between this sampling rule and a diffraction wave that emerges from the aperture edge; comparisons are
drawn with boundary diffraction waves. Numerical results for 2-D square and circular apertures are presented
and discussed, and a potentially time-saving calculation technique that relates pulse distributions in different
z planes is described
CEP-stable Tunable THz-Emission Originating from Laser-Waveform-Controlled Sub-Cycle Plasma-Electron Bursts
We study THz-emission from a plasma driven by an incommensurate-frequency
two-colour laser field. A semi-classical transient electron current model is
derived from a fully quantum-mechanical description of the emission process in
terms of sub-cycle field-ionization followed by continuum-continuum electron
transitions. For the experiment, a CEP-locked laser and a near-degenerate
optical parametric amplifier are used to produce two-colour pulses that consist
of the fundamental and its near-half frequency. By choosing two incommensurate
frequencies, the frequency of the CEP-stable THz-emission can be continuously
tuned into the mid-IR range. This measured frequency dependence of the
THz-emission is found to be consistent with the semi-classical transient
electron current model, similar to the Brunel mechanism of harmonic generation
Detection of Splenic Tissue Using Tc-99m-Labelled Denatured Red Blood Cells Scintigraphy-A Quantitative Single Center Analysis
Background: Red blood cells (RBC) scintigraphy can be used not only for detection of bleeding sites, but also of spleen tissue. However, there is no established quantitative readout. Therefore, we investigated uptake in suspected splenic lesions in direct quantitative correlation to sites of physiologic uptake in order to objectify the readout. Methods: 20 patients with Tc-99m-labelled RBC scintigraphy and SPECT/low-dose CT for assessment of suspected splenic tissue were included. Lesions were rated as vital splenic or non-splenic tissue, and uptake and physiologic uptake of bone marrow, pancreas, and spleen were then quantified using a volume-of-interest based approach. Hepatic uptake served as a reference. Results: The median uptake ratio was significantly higher in splenic (2.82 (range, 0.58-24.10), n = 47) compared to other lesions (0.49 (0.01-0.83), n = 7), p < 0.001, and 5 lesions were newly discovered. The median pancreatic uptake was 0.09 (range 0.03-0.67), bone marrow 0.17 (0.03-0.45), and orthotopic spleen 14.45 (3.04-29.82). Compared to orthotopic spleens, the pancreas showed lowest uptake (0.09 vs. 14.45, p = 0.004). Based on pancreatic uptake we defined a cutoff (0.75) to distinguish splenic from other tissues. Conclusion: As the uptake in extra-splenic regions is invariably low compared to splenules, it can be used as comparator for evaluating suspected splenic tissues
In response to: Anatomy of 18F-GE180, a failed radioligand for the TSPO protein
Purpose!#!Pulmonary hypertension (PH) is characterized by a progressive remodelling of the pulmonary vasculature resulting in right heart failure and eventually death. The serotonin transporter (SERT) may be involved in the pathogenesis of PH in patients with chronic-obstructive pulmonary disease (COPD). This study investigated for the first time the SERT in vivo availability in the lungs of patients with COPD and PH (COPD+PH).!##!Methods!#!SERT availability was assessed using SERT-selective [!##!Results!#![!##!Conclusion!#!By applying
Can Radiomics Provide Additional Information in [F-18]FET-Negative Gliomas?
Simple Summary Amino acid positron emission tomography (PET) complements standard magnetic resonance imaging (MRI) since it directly visualizes the increased amino acid transport into tumor cells. Amino acid PET using O-(2-[F-18]fluoroethyl)-L-tyrosine ([F-18]FET) has proven to be relevant, for example, for glioma classification, identification of tumor progression or recurrence, or for the delineation of tumor extent. Nevertheless, a relevant proportion of low-grade gliomas (30%) and few high-grade gliomas (5%) were found to show no or even decreased amino acid uptake by conventional visual analysis of PET images. Advanced image analysis with the extraction of radiomic features is known to provide more detailed information on tumor characteristics than conventional analyses. Hence, this study aimed to investigate whether radiomic features derived from dynamic [F-18]FET PET data differ between [F-18]FET-negative glioma and healthy background and thus provide information that cannot be extracted by visual read. The purpose of this study was to evaluate the possibility of extracting relevant information from radiomic features even in apparently [F-18]FET-negative gliomas. A total of 46 patients with a newly diagnosed, histologically verified glioma that was visually classified as [F-18]FET-negative were included. Tumor volumes were defined using routine T2/FLAIR MRI data and applied to extract information from dynamic [F-18]FET PET data, i.e., early and late tumor-to-background (TBR5-15, TBR20-40) and time-to-peak (TTP) images. Radiomic features of healthy background were calculated from the tumor volume of interest mirrored in the contralateral hemisphere. The ability to distinguish tumors from healthy tissue was assessed using the Wilcoxon test and logistic regression. A total of 5, 15, and 69% of features derived from TBR20-40, TBR5-15, and TTP images, respectively, were significantly different. A high number of significantly different TTP features was even found in isometabolic gliomas (after exclusion of photopenic gliomas) with visually normal [F-18]FET uptake in static images. However, the differences did not reach satisfactory predictability for machine-learning-based identification of tumor tissue. In conclusion, radiomic features derived from dynamic [F-18]FET PET data may extract additional information even in [F-18]FET-negative gliomas, which should be investigated in larger cohorts and correlated with histological and outcome features in future studies
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