Nohair theorem
The nohair theorem postulates that all black hole solutions of the EinsteinMaxwell equations of gravitation and electromagnetism in general relativity can be completely characterized by only three externally observable classical parameters: mass, electric charge, and angular momentum.^{[1]} All other information (for which "hair" is a metaphor) about the matter which formed a black hole or is falling into it, "disappears" behind the blackhole event horizon and is therefore permanently inaccessible to external observers. Physicist John Archibald Wheeler expressed this idea with the phrase "black holes have no hair"^{[1]} which was the origin of the name. In a later interview, John Wheeler says that Jacob Bekenstein coined this phrase.^{[2]}
There is still no rigorous mathematical proof of the nohair theorem, and mathematicians refer to it as the nohair conjecture. Even in the case of gravity alone (i.e., zero electric fields), the conjecture has been only partially resolved by results of Stephen Hawking, Brandon Carter, and David C. Robinson, under the additional hypothesis of nondegenerate event horizons and the technical, restrictive and difficulttojustify assumption of real analyticity of the spacetime continuum.
Contents
 Example 1
 Changing the reference frame 2
 Fourdimensional spacetime 3
 Extensions 4
 Counterexamples 5
 See also 6
 References 7
 External links 8
Example
Suppose two black holes have the same masses, electrical charges, and angular momenta, but the first black hole is made out of ordinary matter whereas the second is made out of antimatter; nevertheless, they will be completely indistinguishable to an observer outside the event horizon. None of the special particle physics pseudocharges (i.e., the global charges baryonic number, leptonic number, etc.) are conserved in the black hole.
Changing the reference frame
Every isolated unstable black hole decays rapidly to a stable black hole; and (excepting quantum fluctuations) stable black holes can be completely described (in a Cartesian coordinate system) at any moment in time by these eleven numbers:
 massenergy M,
 linear momentum P (three components),
 angular momentum J (three components),
 position X (three components),
 electric charge Q.
These numbers represent the conserved attributes of an object which can be determined from a distance by examining its gravitational and electromagnetic fields. All other variations in the black hole will either escape to infinity or be swallowed up by the black hole.
By changing the reference frame one can set the linear momentum and position to zero and orient the spin angular momentum along the positive z axis. This eliminates eight of the eleven numbers, leaving three which are independent of the reference frame. Thus any black hole which has been isolated for a significant period of time can be described by the Kerr–Newman metric in an appropriately chosen reference frame.
Fourdimensional spacetime
The nohair theorem was originally formulated for black holes within the context of a fourdimensional spacetime, obeying the Einstein field equation of general relativity with zero cosmological constant, in the presence of electromagnetic fields, or optionally other fields such as scalar fields and massive vector fields (Proca fields, spinor fields, etc.).
Extensions
It has since been extended to include the case where the cosmological constant is positive (which recent observations are tending to support).^{[3]}
Magnetic charge, if detected as predicted by some theories, would form the fourth parameter possessed by a classical black hole.
Counterexamples
Counterexamples in which the theorem fails are known in spacetime dimensions higher than four; in the presence of nonabelian YangMills fields, nonabelian Proca fields, some nonminimally coupled scalar fields, or skyrmions; or in some theories of gravity other than Einstein’s general relativity. However, these exceptions are often unstable solutions and/or do not lead to conserved quantum numbers so that "The 'spirit' of the nohair conjecture, however, seems to be maintained".^{[4]} It has been proposed that "hairy" black holes may be considered to be bound states of hairless black holes and solitons.
In 2004, the exact analytical solution of a (3+1)dimensional spherically symmetric black hole with minimally coupled scalar field was derived.^{[5]} This showed that, apart from mass, electrical charge and angular momentum, black holes can carry a finite scalar charge which might be a result of interaction with cosmological scalar fields such as the inflaton. The solution is stable and does not possess any unphysical properties.
See also
References
 ^ ^{a} ^{b}
 ^ https://www.youtube.com/watch?v=BIHPWKXvGkE&feature=youtu.be&t=6m
 ^ Bhattacharya, Sourav; Lahiri, Amitabha (2007). "No hair theorems for positive Λ".
 ^ Mavromatos, N. E. (1996). "Eluding the NoHair Conjecture for Black Holes".
 ^ Zloshchastiev, Konstantin G. (2005). "Coexistence of Black Holes and a LongRange Scalar Field in Cosmology". Phys. Rev. Lett. 94 (12): 121101.
External links
 paradox, first reported in July 2004. unitarity, Stephen Hawking’s purported solution to the black hole
