Planck temperature

E158978

The Planck temperature is the theoretical maximum meaningful temperature in physics, above which current physical theories, including quantum mechanics and general relativity, are expected to break down.

All labels observed (1)

Label Occurrences
Planck temperature canonical 7

How this entity was disambiguated

Statements (48)

Predicate Object
instanceOf Planck unit
physical constant
thermodynamic temperature scale quantity
appearsIn discussions of limits of physical theories
literature on Planck era of the universe
associatedWith Planck energy
Planck length
Planck scale
Planck time
breakdown of general relativity
breakdown of quantum field theory
conceptualRole scale where classical spacetime description fails
theoretical maximum temperature
definedInTermsOf Boltzmann constant
Planck constant
gravitational constant
reduced Planck constant
speed of light in vacuum
dependsOn fundamental constants of nature
dimension temperature
field cosmology
quantum gravity
theoretical physics
greaterThan core temperature of stars
temperature of the early universe after inflation reheating (in most models)
temperatures achievable in current particle accelerators
hasApproximateValue 1.4 × 10^32 K
1.416808e32 kelvin
hasFormula T_P = (1/k_B)·sqrt(ħ c^5 / G)
historicalContext derived from Planck’s combination of fundamental constants
implies need for a theory of quantum gravity
strong quantum fluctuations of spacetime
introducedBy Max Planck
isUpperLimitFor meaningful thermodynamic temperature in known physics
measurability not experimentally attainable with current technology
namedAfter Max Planck
orderOfMagnitude 10^32 kelvin
partOf natural units
regime quantum gravity regime
relatedTo Planck mass
Planck units
surface form: Planck units system
SIBaseUnit kelvin
status theoretical
symbol T_P
unit kelvin
usedIn FLRW cosmological models
surface form: Big Bang models

early universe cosmology
high-energy physics limits

How these facts were elicited

Referenced by (7)

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

Max Planck hasNamesake Planck temperature
Planck time relatedTo Planck temperature
t_P isAssociatedWith Planck temperature
Planck energy relatedTo Planck temperature
Planck mass relatedTo Planck temperature
Planck scale associatedWith Planck temperature
Planck scale characteristicTemperatureScale Planck temperature