set: The energy-momentum tensor

transformR Documentation

The energy-momentum tensor

Description

Various functionality to deal with the stress-energy tensor in special relativity.

Usage

perfectfluid(rho,p,u=0)
dust(rho,u=0)
photongas(rho,u=0)
transform_dd(TT, B)
transform_ud(TT, B)
transform_uu(TT, B)
raise(TT)
lower(TT)

Arguments

TT

A second-rank tensor with indices either downstairs-downstairs, downstairs-upstairs, or upstairs-upstairs

B

A boost matrix

rho,p,u

Density, pressure, and four-velocity of the dust

Details

Function perfectfluid() returns the stress-energy tensor, with two upstairs indices, for a perfect fluid with the conditions specified. No checking for physical reasonableness (eg the weak energy condition) is performed: caveat emptor!

Function dust() is a (trivial) function that returns the stress-energy tensor of a zero-pressure perfect fluid (that is, dust). Function photongas() returns the stress-energy tensor of a photon gas. They are here for discoverability reasons; both are special cases of a perfect fluid.

Functions transform_dd() et seq transform a second-rank tensor using the Lorentz transform. The letters ā€œuā€ or ā€œdā€ denote the indices of the tensor being upstairs (contravariant) or downstairs (covariant). The stress-energy tensor is usually written with two upstairs indices, so use transform_uu() to transform it.

Function lower() lowers both indices of a tensor with two upstairs indices. Function raise() raises two downstairs indices. These two functions have identical R idiom but do not return identical values if c\neq 1.

Author(s)

Robin K. S. Hankin

Examples


perfectfluid(10,1)

u <- as.3vel(c(0.4,0.4,0.2))

## In the following, LHS is stationary dust and RHS is dust moving at
## velocity 'u', but transformed to a frame also moving at velocity 'u':

LHS <- dust(1)
RHS <- transform_uu(dust(1,u),boost(u))
max(abs(LHS-RHS))  # should be small


## In the following, negative sign needed because active/passive
## difference:

LHS <- dust(1,u)
RHS <- transform_uu(dust(1),boost(-u))
max(abs(LHS-RHS))  # should be small

## Now test behaviour when  c!=1:


sol(299792458)
perfectfluid(1.225,101325) # air at STP

LHS <- transform_uu(perfectfluid(1.225,101325),boost(as.3vel(c(1000,0,0))))
RHS <- perfectfluid(1.225,101325) 
LHS-RHS  # should be small

sol(10)
u <- as.3vel(4:6)
LHS <- photongas(1,u)
RHS <- transform_uu(photongas(1),boost(-u))
LHS-RHS # should be small



B1 <- boost(r3vel(1)) %*% boost(r3vel(1))
B2 <- boost(r3vel(1)) %*% boost(r3vel(1))
LHS <- transform_uu(transform_uu(dust(1),B1),B2)
RHS <- transform_uu(dust(1),B2 %*% B1)   # note order
LHS-RHS  # should be small


## remember to re-set c:
sol(1)

RobinHankin/gyrogroup documentation built on Feb. 4, 2024, 3:09 a.m.