he ordinary matter universe.
George
> Saibal Mitra wrote:
>
> It has been conventional wisdom that the fundamental laws of physics
> are not invariant under parity. Now, the computational complexity of a
> model that lacks mirror symmetry is much larger than a similar mirror
&g
n the exact parity model.
Saibal
- Original Message -
From: <[EMAIL PROTECTED]>
To: <[EMAIL PROTECTED]>
Sent: Sunday, February 03, 2002 10:45 PM
Subject: Re: Mirror Symmetry
>
>
> Saibal Mitra:
> > ... a so-called mirror world could exist. Nature would th
At 2/3/02, you wrote:
>It has been conventional wisdom that the fundamental laws of physics are
>not invariant under parity. Now, the computational complexity of a model
>that lacks mirror symmetry is much larger than a similar mirror symmetric
>model. It would thus be very stran
Saibal Mitra:
> ... a so-called mirror world could exist. Nature would then be
> symmetric under parity. Their so-called exact parity model predicts
> the existence of so-called ''mirror matter''. Each particle is
> postulated to have a mirror partner with similar properties (they
> behave exact
It has been conventional wisdom that the
fundamental laws of physics are not invariant under parity. Now, the
computational complexity of a model that lacks mirror symmetry is
much larger than a similar mirror symmetric
model. It would thus be very strange if Nature is indeed not invariant
5 matches
Mail list logo
