MICRO-MEsh GAseous Structure technology

E571997

MICRO-MEsh GAseous Structure (Micromegas) technology is a type of gaseous particle detector used in high-energy physics and astroparticle experiments for precise tracking and measurement of ionizing radiation.

All labels observed (1)

Label Occurrences
MICRO-MEsh GAseous Structure technology canonical 1

How this entity was disambiguated

Statements (46)

Predicate Object
instanceOf gaseous particle detector technology
micro-pattern gaseous detector
appliedIn X-ray imaging detectors
dark matter search experiments
muon spectrometers
neutrino experiments
time projection chambers
basedOn electron avalanche amplification
gas ionization
category detector technology
particle physics instrumentation
developedAt CEA Saclay NERFINISHED
developedBy Ioannis Giomataris NERFINISHED
developedFor precision tracking detectors
enables fine granularity readout
two-dimensional position measurement
feature fast signal response
good radiation hardness
high rate capability
high spatial resolution
fullName MICRO-MEsh GAseous Structure NERFINISHED
hasAcronym Micromegas NERFINISHED
hasAdvantageOver traditional multi-wire proportional chambers
hasComponent amplification gap
drift region
micromesh electrode
readout anode
introducedIn 1990s
operatesWith argon-based gas mixtures
noble gas mixtures
optimizedFor tracking of minimum ionizing particles
provides good energy resolution for charged particles
readoutTechnology pad readout
strip readout
relatedTo GEM detector NERFINISHED
micro-pattern gaseous detectors
requires high-voltage operation
stable gas system
supports large-area detector construction
modular detector design
usedFor astroparticle physics experiments
detection of ionizing radiation
particle tracking
precision tracking in high-energy physics experiments
usedIn astroparticle physics
high-energy physics

How these facts were elicited

Referenced by (1)

Full triples — surface form annotated when it differs from this entity's canonical label.

Ioannis Giomataris knownFor MICRO-MEsh GAseous Structure technology