Purcell effect

E266668

The Purcell effect is a quantum electrodynamics phenomenon in which the spontaneous emission rate of an emitter is enhanced or suppressed by its surrounding electromagnetic environment, such as a resonant cavity.

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Purcell effect canonical 1

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Statements (49)

Predicate Object
instanceOf physical phenomenon
quantum electrodynamics effect
affects spontaneous emission rate
appliesTo atoms
color centers in solids
molecules
quantum dots
superconducting artificial atoms
canCause enhancement of spontaneous emission
suppression of spontaneous emission
concerns emitter–environment interaction
contrastedWith free-space spontaneous emission
dependsOn dipole orientation of emitter
emitter transition frequency
mode volume of cavity
quality factor of cavity
spatial overlap between emitter and cavity field
spectral overlap between emitter and cavity mode
enables faster radiative decay
slower radiative decay
field cavity quantum electrodynamics
quantum electrodynamics
quantum optics
historicalDiscovery mid-20th century
mechanism modification of local density of optical states
namedAfter Edward M. Purcell
surface form: Edward Mills Purcell
occursIn electromagnetic cavity
microcavities
microwave cavity
nanophotonic structures
optical cavity
photonic crystals
plasmonic nanostructures
resonators
quantifiedBy Purcell factor
relatedTo Fermi golden rule
cavity QED strong coupling regime
local density of states
usedIn cavity-enhanced spectroscopy
control of radiative lifetimes
fluorescence enhancement
lasers
light-emitting diodes
quantum communication
quantum information processing
single-photon emitters
single-photon sources
solid-state qubits
superconducting qubits

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Edward M. Purcell knownFor Purcell effect