0000000000448709

AUTHOR

Andreas Vaterlaus

showing 3 related works from this author

Visual attention while solving the test of understanding graphs in kinematics: an eye-tracking analysis

2019

This study used eye-tracking to capture students' visual attention while taking a test of understanding graphs in kinematics (TUG-K). A total of N = 115 upper-secondary-level students from Germany and Switzerland took the 26-item multiple-choice instrument after learning about kinematics graphs in the regular classroom. Besides choosing the correct alternative among research-based distractors, the students were required to judge their response confidence for each question. The items were presented sequentially on a computer screen equipped with a remote eye tracker, resulting in a set of approx. 3000 paired responses (accuracy and confidence) and about 40 h of eye-movement data (approx. 500…

graph understandingeducationFOS: Physical sciencesGeneral Physics and AstronomyTest validityKinematicsRegular classroom01 natural sciencessilmänliikkeetPhysics Education (physics.ed-ph)0103 physical sciencesVisual attention010306 general physicsSet (psychology)Physicseye-tracking05 social sciencesPhysics - Physics Education050301 educationtest validationTest (assessment)eye-tracking; graph understanding; kinematics; visual attention; test validationvisual attentionkinematicskatseenseurantaEye tracking0503 educationCognitive psychologyeye-tracking analysis
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Compact setup for spin-, time-, and angle-resolved photoemission spectroscopy.

2020

Review of scientific instruments 91(6), 063001 (2020). doi:10.1063/5.0004861

010302 applied physicsPhotonMaterials sciencePhotoemission spectroscopyTi:sapphire laserPhysics::OpticsAngle-resolved photoemission spectroscopyElectronLaser01 natural sciences010305 fluids & plasmaslaw.invention620Electron diffractionlaw0103 physical sciencesHigh harmonic generationCondensed Matter::Strongly Correlated ElectronsAtomic physicsddc:620InstrumentationThe Review of scientific instruments
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Imaging spin filter for electrons based on specular reflection from iridium (001)

2013

Abstract As Stern–Gerlach type spin filters do not work with electrons, spin analysis of electron beams is accomplished by spin-dependent scattering processes based on spin–orbit or exchange interaction. Existing polarimeters are single-channel devices characterized by an inherently low figure of merit (FoM) of typically 10 −4 –10 −3 . This single-channel approach is not compatible with parallel imaging microscopes and also not with modern electron spectrometers that acquire a certain energy and angular interval simultaneously. We present a novel type of polarimeter that can transport a full image by making use of k -parallel conservation in low-energy electron diffraction. We studied specul…

DiffractionPhysicsSpectrometerScatteringbusiness.industryPolarimeter02 engineering and technologyElectronPhysik (inkl. Astronomie)021001 nanoscience & nanotechnology01 natural sciencesAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsOpticsElectron diffraction0103 physical sciencesSpecular reflection010306 general physics0210 nano-technologySpin (physics)businessInstrumentationULTRAMICROSCOPY
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