How Does Twistor Theory Connect to Roger Penrose?

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Twistor theory, developed by Roger Penrose, is a mathematical physics concept rooted in projective complex n-space. It is recognized for its brilliance but is often described as a theory in search of practical applications. The theory simplifies complex numbers into a single complex dimension, allowing for the definition of complex vector spaces, denoted as Cn, where n represents the number of dimensions. Each complex number can be represented as a point in a two-dimensional surface, but mathematically, they are treated as forming one complex dimension. The discussion also includes links to further resources and lectures by Penrose for those seeking deeper insights into twistor theory.
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What is the twistor theory?

Could you please answer as simply as possible, thanks.
 
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A mathematical physics theory invented by Penrose based on projective complex n-space. Brilliant, but pretty much a theory in search of an application.
 
Originally posted by selfAdjoint
A mathematical physics theory invented by Penrose based on projective complex n-space. Brilliant, but pretty much a theory in search of an application.

Thanks selfAdjoint since you are the only person who actually answered the question but I still need an even simpler defenition because I don't understand. For a start what is n-space
 
First I'll assume you are familiar with complex numbers. When we think of them in terms of their real and imaginary parts, z = x + iy, we see they span a two-dimensional surface. Each x iy can be mapped to a point (x,y) in Cartesian coordinates.

Still with me?

In spite of this two dimensional representation, mathemeticians think of the complex numbers as forming just one complex dimension. It's a space with a single complex coordinate, (z). You can defined linear functions on it like uz + v where u and v are complex, just by using complex addition and multiplication. So it's a complex vector space, denoted by C.

Now think of the set of triples (say), (z1, z2, z3), where each z can range over all the complex numbers. Using the same methods, we can define a vector structure on this, and it's denoted C3. We don't have to stop at 3, we can do any number dimension. The n-tuples (z1, z2, z3,...,zn) with the induced vector structure form complex n-space Cn.
 
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