How to obtain Kerr Metric via Spinors (N-P Formalism)

yicong2011
Messages
75
Reaction score
0
How to obtain Kerr Metric via Spinors (Newman-Penrose Formalism)?

I am a bit confused with Ray d'Inverno's Book.

Why perform the coordinates transformation:

2r-1 -> r-1 + r*-1


I am bit confused of it.

And I am a bit confused, too, of how to write out null tetrad...


Is there any resource rendering in-detail discussion of it?
 
Physics news on Phys.org
Does D'Inverno talk about spinors? I would be thankful if you could point me to where in the text itself if he does.
 
WannabeNewton said:
Does D'Inverno talk about spinors? I would be thankful if you could point me to where in the text itself if he does.

Page 250...
 
A null tetrad is something of a ruse. Two of its legs are real null vectors whose inner product is 1, while the other two are formed by the introduction of a spurious "i" and have components that are real, orthogonal spacelike vectors:

(s1 + i s2)^2 = (s1^2 - s2^2) + 2i (s1.s2) = 0

..so you could take s1 = (1,0,0,0) and s2=(0,1,0,0) in the rest frame and boost them up to non-zero momentum. So a typical null tetrad is up to normalization,

[1,i,0,0], [1,-i,0,0], [0,0,1,1], [0,0,-1,1]

If one now wants the Pauli algebra (2nd-rank mixed spinorial) form of these basis vectors, you get up to normalization,

[0,1;0,0] [0,0;1,0] [1,0;0,0] [0,0;0,1]

This is what one is really after, and the tetrad itself is a side show.

Ad-hoc introduction of "i" in this way always leads to confusion of spacetime covariants. It is to be avoided.

-drl
 
Last edited:
yicong2011 said:
How to obtain Kerr Metric via Spinors
Why perform the coordinates transformation:
2r-1 -> r-1 + r*-1

Going to complex coordinates seems like a strange idea at first, but for the Kerr metric it turns out to be useful, because there's a natural interpretation in which the mass m is located not at the origin but at a distance 'a' along the imaginary axis, where 'a' is the Kerr parameter.
 
the mass m is located not at the origin but at a distance 'a' along the imaginary axis, where 'a' is the Kerr parameter.


Why is that?

How can it affect the extension of r

Can someone explain it?

Thanks.
 

Thread 'A sufficient condition for integrability of equation ##\nabla g=0##'

In Philippe G. Ciarlet's book 'An introduction to differential geometry', He gives the integrability conditions of the differential equations like this: $$ \partial_{i} F_{lj}=L^p_{ij} F_{lp},\,\,\,F_{ij}(x_0)=F^0_{ij}. $$ The integrability conditions for the existence of a global solution ##F_{lj}## is: $$ R^i_{jkl}\equiv\partial_k L^i_{jl}-\partial_l L^i_{jk}+L^h_{jl} L^i_{hk}-L^h_{jk} L^i_{hl}=0 $$ Then from the equation: $$\nabla_b e_a= \Gamma^c_{ab} e_c$$ Using cartesian basis ## e_I...
View full post »
Thread 'Dirac's integral for the energy-momentum of the gravitational field'

Thread 'Dirac's integral for the energy-momentum of the gravitational field'

See Dirac's brief treatment of the energy-momentum pseudo-tensor in the attached picture. Dirac is presumably integrating eq. (31.2) over the 4D "hypercylinder" defined by ##T_1 \le x^0 \le T_2## and ##\mathbf{|x|} \le R##, where ##R## is sufficiently large to include all the matter-energy fields in the system. Then \begin{align} 0 &= \int_V \left[ ({t_\mu}^\nu + T_\mu^\nu)\sqrt{-g}\, \right]_{,\nu} d^4 x = \int_{\partial V} ({t_\mu}^\nu + T_\mu^\nu)\sqrt{-g} \, dS_\nu \nonumber\\ &= \left(...
View full post »

Thread 'Hawking After 54 Years Confirmed: BH surfaces don't shrink'

Abstract The gravitational-wave signal GW250114 was observed by the two LIGO detectors with a network matched-filter signal-to-noise ratio of 80. The signal was emitted by the coalescence of two black holes with near-equal masses ## m_1=33.6_{-0.8}^{+1.2} M_{⊙} ## and ## m_2=32.2_{-1. 3}^{+0.8} M_{⊙}##, and small spins ##\chi_{1,2}\leq 0.26 ## (90% credibility) and negligible eccentricity ##e⁢\leq 0.03.## Postmerger data excluding the peak region are consistent with the dominant quadrupolar...
View full post »

Similar threads

A Kerr Metric: Removing Singularity via Coordinate Transformation
Replies
1
Views
1K
A Understanding Kerr Black Holes: Metric, Killing Vectors & Event Horizons
Replies
8
Views
3K
I Null energy condition constrains the metric
Replies
5
Views
1K
I Geometric Meaning of Complex Null Vector in Newman-Penrose Formalism
Replies
2
Views
2K
A Tensors in null basis
Replies
9
Views
1K
CPT (M?) symmetries in Kerr-Newman metric
2
Replies
62
Views
10K
Getting a conserved charge out of the Kerr metric
Replies
3
Views
2K
How to Derive Radial Geodesics in Kerr Metric?
Replies
11
Views
3K
Israel Wilson Perjes Metric: Tetrad Formalism Reference
Replies
5
Views
2K
Kerr metric hydrostatic equilibrium
Replies
1
Views
3K

Hot Threads

Recent Insights

Back
Top