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    Critical behaviors of gravity under quantum perturbations

    2014-10-24 05:43:32ZHANGHongshengLIXinzhou

    ZHANG Hongsheng,LI Xinzhou

    (Shanghai United Center for Astrophysics,Shanghai Normal University,Shanghai 200234,China)

    1 Introduction

    The relationship between gravity theory and thermodynamics is an interesting and profound issue.The key quantities bridging the gravity and thermodynamics are temperature and entropy.Temperature of an ordinary system denotes the average kinetic energy of microscopic motions of a single particle.To gravity the temperature becomes subtle.Since we do not have a complete quantum theory of gravity,for general case we can not use the usual way to get the temperature of the gravity field.Under this situation one can set up some thermodynamics and statistical quantities of gravity by using semi-quantum(matter field is quantized,but gravity remains classical)theory,though the concept of gravitational particle is not clear.The black hole thermodynamics(in fact,spacetime thermodynamics,because the physical quantities in black hole thermodynamics should be treated as the quantities of the globally asymptomatic flat manifold)is set up in[1]and confirmed by Hawking radiation[2].

    The Hawking radiation is a pivotal discovery in the history of black hole thermodynamics,which has been confirmed in several different ways.An intuitive reasoning of Hawking radiation in tunneling scenario is proposed in[3].This method not only realized some early intuitive thought on the Hawking radiation,but find the correction to the blackbody spectrum of the radiation.The correction to the original Hawking radiation is easy to understand:In the early work,the mass of black hole is assumed to be a constant,which is of course only an approximation since energy flows away with the radiations.In the original tunneling scenario,semiclassical approximations are essential in the deduction.The full quantum perturbations,i.e.,the quantum corrections to all orders for Hawking radiation,are found in[4].More importantly,this study of quantum perturbations is a self-consistent approach.The corrections for entropy,temperature and other quantities are given in the same frame,in which the first law of thermodynamics is satisfied.The leading correction for entropy just takes a log form,which has been obtained several times in several studies from many aspect of black hole entropy.It can be obtained from thermal perturbations,quantum perturbations,loop quantum gravity,Euclidean path integral approach,etc[5].Most of the early approaches are not self-consistent:Only the correction to entropy is considered,which breaks the first law.Consistent black hole thermodynamics with perturbation effects from very different aspects can be found in[6-7].

    More and more analogies are found between ordinary thermodynamics and black hole thermodynamics through more and deep studies.The four laws of black hole dynamics can be mapped to the four law of thermodynamics.Every quantity finds its counterpart in ordinary thermodynamics.It is generally known that phase transition and critical phenomenon play a central role in modern thermodynamics and statistical mechanics.The phase transition is also discovered in black hole physics.To describe phase transition and critical phenomenon by using an electrodynamic analogy has a fairly long history[8].In an asymptotic AdSspace,a first order phase transition occurs in a charged black hole(Hawking-Page phase transition)[9].AdS gets increasing attentions since the AdS/CFT correspondence was proposed[10-11].A most simple version of AdS/CFT says that gravity in AdSspace exactly maps to a supersymmetric Yang-Mills theory on its boundary.This can be treated as a perfect example of holographic principle.The Hawking-Page phase transition maps to quark confinement/definement transition in the CFT part[12],such that gets more physical significance.Moreover,RN-AdS black hole undergoes a second order phase transition and a critical point appears,which is very similar to what happens in vans der Naals_Maxwell gas-liquid system[13].The behavior of the electric potential and the charge play the role of volume and pressure in vans der Waals-Maxwell gas-liquid system.However,this is only an apparent analogy from the plots of electric potential vs.charge and volume vs.pressure.The critical exponents are essentially different between the two systems.

    The vans der Waals-Maxwell gas-liquid is a typical instance of mean field theory(MFT).MFT was suggested many times in history,including Weiss molecular field theory,Landau-Ginzburg superconductor model,Bragg-Williams approximation,etc.All of them share the same critical exponents.The essence of MFT is to ignore the perturbations around the critical point:it treats all effects working on a particle from all the other particles in a system as a ″Mean Field″.When the phase transition in RN-AdSspace time is explored,no perturbation is considered.The other important property of the phase transition in RN-AdSis that the critical exponents are dimension-independent[14-15].This is also a key property of MFT.We may habitually conjecture that the critical exponents of RN-AdStake the same values of MFT.But the result is surprising in some sense.It is different from neither MFT nor Kadanoff-Wilson(renormolization group)theory.However it inherits an exponent from MFT(δ)and an exponent from renormalization group(β),and has its own exponents(α,γ).The spirit of Kadanoff-Wilson theory is that there is no length scale in a system at the critical point.But,it is an inherent scale in gravity theory G-1/2,which generates the difficulties to construct a no-scale theory for gravity at the critical points.However,we can include the effects of the perturbations in a very different way.In this article we develop a new method to consider the full quantum perturbations at the critical points.

    This article is organized as follows.In the next section we review some properties of RN-AdSand study its critical exponents with quantum perturbations.In section 3 we present our conclusion.

    2 Critical exponents of RN-AdSwith full quantum perturbations

    The thermodynamics of RN-AdSin different dimensions have been discussed by many authors by several different methods[16-22].First,we revisit the principle results of 4-dimensional RN black hole in asymptotic AdSspace.The metric reads,

    where dΩ2denotes a unit 2-sphere and

    Mand qlabel the ADM mass associated to the Killing vector

    and electric charge of the black hole respectively(We adopt nature unit G=c=?=kB=1 without notations).Generally RN-AdSblack hole has two horizons,inner Cauchy horizon and outer event horizon,located at r-at r+respectively.The two horizons are determined by mass,electric charge,and the cosmological constant,

    When q2≥M2a nakedsingularity will appear.As usual,the black hole entropy S is a quarter of the outer horizon,

    The first law d M=T d S+ φd q yields the temperature and the electric potential,

    and

    The EOSof the RN-AdSblack hole f(T,q,φ)=0 can be obtained byusing Eq.(3)-Eq.(7),

    where λ/3=1/l2.The critical values of temperature Tc,charge qc,and potentialφccan be calculated routinely,

    The critical exponents around the critical points are defined as follows.

    These exponents have been worked out[12],

    Interestingly,these exponents are dimension-free,which is a significant property of MFT.It is not surprised since we do not include any perturbations around the critical point,where perturbations,in fact,dominates the whole process approaching the point.To include the perturbations will shift the physical quantities,such as temperature,pressure,entropy,etc.

    The quantum perturbation on a classical gravity background has been explored for several years.However,most of them are not self-consistent approaches in sense of thermodynamics.The corrected quantities do not satisfy the laws of thermodynamics,not like what classical theory can do.In principle,any from of matters should obey thermodynamics,since thermodynamics does not depend on the concrete form of matter.A recent approach of quantum perturbation of black hole realizes a consistent thermodynamics after quantum corrections.In this approach,the corrected temperature Tqureads,

    where βiare dimensionless constants,T represents the ″classical″Hawking temperature,and M denotes the mass of the black hole.In the above equation we restore the Planck constant? to clear the order of the corrections.Thus,it is clear that in the classical limit(?→0)the temperature degenerates to the original Hawking temperature.The series in bracket can be worked out if(βi?)i=k,

    This equation includes the total effects of the quantum perturbations to all orders.With a corrected entropy,the consistent first law can be obtained in this frame[4].Note that there is no extra corrections to mass,charge and angular momentum.Thus,with quantum corrections the equation of state(8)becomes

    where the mass M relates to q andφ by,

    The second order phase transition occurs at

    and

    It is an algebraic equation of degree 16 with respect to φ,or degree 10 with respect q.Further,(19)yields an even more complicate algebraic equation.It is no hope to get any analytic solution.From the experiences of the previous studies of the critical points of second order phase transition,we develop a special method to get the critical point.In fact,we need not to get all the solutions of(18)and(19).The essential condition is that two roots of(18)degenerate to one.Under this condition,(20)with respect to φ2≡x is equivalent to

    where xc,c0,…,c5are constants.A comparison of the coefficients with(20)generates the following equation set,

    In the above set,we treat xc,q,c0,c1,…,c5as variables.We do get the analytic solution of the above equation set.But,unfortunately,it is rather lengthy(more than ten pages for a single solution of one variable)and has no illumination in physical sense.Hence we do not display it here.We only show some numerical results to compare with the original RN -AdScase.

    Figure 1 The critical isotherm of RN-AdSblack hole,in which T=■2,φ=1,q= 1 c3πc6c2 3■ ■

    Figure 2 The critical isotherm of perturbed RN-AdSblack hole,in which we set k=0.01,Tc=0.1479,φc=0.3697,qc=0.2435

    Fig.1 displays the critical isotherm of RN-AdSblack hole without perturbation,while Fig.2 illustrates the corresponding one with a quantum perturbation.One sees that the shapes of the two figures become different when q is small.However,the critical exponents depend only on the properties of the system around the critical point.By definition(12),we find the critical exponents of the perturbed RN-AdSby series expansion,

    This fact is very interesting since the equation of state of the perturbed RN-AdS(16)is very different from the unperturbed one(8),while their critical behaviors are exactly the same.The result will be especially significant if one is familiar with critical phenomenon of ordinary matters.For ordinary matter,MFT and RGT present different critical exponents.Theoretically,MFT omits the perturbations around the critical point,while RGT carefully considers the perturbation effects at the critical point.In RGT,the whole system at the critical point is length scale free,that is,there is no special length scale in this system.In a gravity system,there is an inherent length scale G-1/2,which makes the RGT cannot do its work in a gravity system.A popular result is that the G-1/2with a length scale hinders us to renormalize gravity.Here it hinders us to apply RGT in gravity,which makes the perturbed gravity and unperturbed gravity share the same critical exponents,though the perturbation shifts the critical point.This is our main result of this work.

    3 Conclusion

    In this article,we calculate the critical exponents of RN-AdS with quantum perturbations to all orders.The critical point is shifted due to the perturbations.The perturbations yield a smaller Tc,φc,and qcin general.Also,the phase portraits(T,φ,q)of the perturbed RN-AdS and unperturbed RN-AdS seem different.However,the most important parameter to describe the behavior around the critical point,i.e.,the critical exponents,are not changed by the perturbation.This is surprising since perturbation is always important at the critical point,as we learn from thermodynamics and statistical mechanics for ordinary matters.A profound reason maybe that there is no complete analogy between thermodynamics and black hole physics.We can easily present some known examples about this gap[23].Gravity has some special laws,even though we found the close relation between gravitational theory and thermodynamics.

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