Physik
Refine
Document Type
- Article (36)
Language
- English (36)
Has Fulltext
- yes (36)
Is part of the Bibliography
- no (36)
Keywords
- D-wave (3)
- I-wave (3)
- brain stimulation (3)
- compartmental neuron model (3)
- computational model (3)
- motor cortex (3)
- multi-scale modeling (3)
- transcranial magnetic stimulation (3)
- focused electron beam induced deposition (2)
- game theory (2)
- terahertz (2)
- Actuators (1)
- Arms (1)
- Atmosphere (1)
- Bidirectional connections (1)
- Biological locomotion (1)
- COVID 19 (1)
- Complex networks (1)
- Condensed Matter, Materials & Applied Physics (1)
- Cortical circuit (1)
- Critical phenomena (1)
- Design, synthesis and processing (1)
- Doppler radar (1)
- Dynamical systems (1)
- Epidemiological statistics (1)
- Epidemiology (1)
- Exotic phases of matter (1)
- FM radar (1)
- First order phase transitions (1)
- Functional renormalization group (1)
- General Physics (1)
- Infrared light (1)
- Lamb waves (1)
- Laminar flow (1)
- Light (1)
- Magnetic properties and materials (1)
- Mechanical engineering (1)
- Mott metal-insulator transition (1)
- Mott transition (1)
- Nanoscale materials (1)
- Nanowires (1)
- Network models (1)
- Nobel prizes (1)
- Nonrandom connectivity (1)
- Pandemics (1)
- Plasmons Quantum mechanics (1)
- Prototypes (1)
- Quantum phase transitions (1)
- Rain (1)
- Random graph model (1)
- Renormalization group (1)
- Robotic behavior (1)
- Robots (1)
- Simulation and modeling (1)
- Social distancing (1)
- Social systems (1)
- Statistical Physics (1)
- Superconducting properties and materials (1)
- Surfaces, interfaces and thin films (1)
- THz detection (1)
- TeraFET (1)
- Theoretical physics (1)
- X-ray irradiation (1)
- asymptotic behavior (1)
- blue bronze (1)
- charge density wave (1)
- charge-cluster glass (1)
- class separation (1)
- closed-loop robots (1)
- coherent emission (1)
- complex systems (1)
- compliant robot (1)
- continuum model (1)
- density functional theory (1)
- digital communications (1)
- disorder (1)
- echo-state networks (1)
- envy (1)
- exact exchange (1)
- fluctuation spectroscopy (1)
- glass-like structural ordering (1)
- granular ferromagnets (1)
- homeostasis (1)
- human-body radiation (1)
- limit cycles (1)
- mathematical and relativistic aspects of cosmology (1)
- meteorological radar (1)
- millimeter wave radar (1)
- music charts (1)
- nash equilibrium (1)
- organic charge-transfer salts (1)
- organic compounds (1)
- organic conductor (1)
- particle-theory and field-theory models of the early universe (1)
- passive imaging (1)
- percolation (1)
- phase transition (1)
- phonon (1)
- precursor residence time (1)
- predictive modelling (1)
- pressure (1)
- quantum spin frustration (1)
- quantum spin liquids (1)
- radar detection (1)
- radar imaging (1)
- radar signal processing (1)
- rain (1)
- recurrent networks (1)
- remote sensing by radar (1)
- reservoir computing (1)
- robophysics (1)
- scanning Hall probe microscopy (1)
- science of sciences (1)
- self-organization (1)
- self-organized criticalit (1)
- self-organized locomotion (1)
- sensorimotor loop (1)
- slabs (1)
- social acceleration (1)
- social classes (1)
- social modelling (1)
- social stratification (1)
- sociophysics (1)
- spectral radius (1)
- strategy condensation (1)
- structural health monitoring (1)
- synaptic scaling (1)
- synthetic aperture radar (1)
- thermal expansion (1)
- thermodynamic functions and equations of state (1)
- time scales (1)
- time-resolved (1)
- viscous cosmology (1)
- wind (1)
- wind energy (1)
- wind turbines (1)
- field-effect transistor (1)
Institute
Scanning Hall probe microscopy is attractive for minimally invasive characterization of magnetic thin films and nanostructures by measurement of the emanating magnetic stray field. Established sensor probes operating at room temperature employ highly miniaturized spin-valve elements or semimetals, such as Bi. As the sensor layer structures are fabricated by patterning of planar thin films, their adaption to custom-made sensor probe geometries is highly challenging or impossible. Here we show how nanogranular ferromagnetic Hall devices fabricated by the direct-write method of focused electron beam induced deposition (FEBID) can be tailor-made for any given probe geometry. Furthermore, we demonstrate how the magnetic stray field sensitivity can be optimized in situ directly after direct-write nanofabrication of the sensor element. First proof-of-principle results on the use of this novel scanning Hall sensor are shown.