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From: Paul Daniel Jones
Subject: optics and photons
Date: 25 Jan 2001 15:54:44
Message: <3A7092D8.7B3FE2F2@psu.edu>
ARGH!!!  I am trying to make a lens which will generate parallel beams
of light with a spotlight put at it's focal point. I have tried using
some formulae from my physics book, but just can't get it. Is there
anybody out there who could help me?

-paul

--
-------------------------------------------#
Paul Daniel Jones
120 Chandlee Laboratory
Penn State University
814-865-2090
pdj### [at] psuedu

http://research.chem.psu.edu/glassgrp/paul
--------------------------------------------#


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From: Dan Johnson
Subject: Re: optics and photons
Date: 26 Jan 2001 01:13:21
Message: <3A7116E4.DD01DB5B@hotmail.com>
Paul Daniel Jones wrote:

> ARGH!!!  I am trying to make a lens which will generate parallel beams
> of light with a spotlight put at it's focal point. I have tried using
> some formulae from my physics book, but just can't get it. Is there
> anybody out there who could help me?
>
> -paul
>
> --
> -------------------------------------------#
> Paul Daniel Jones
> 120 Chandlee Laboratory
> Penn State University
> 814-865-2090
> pdj### [at] psuedu
>
> http://research.chem.psu.edu/glassgrp/paul
> --------------------------------------------#

I can't get anything realistic with the spotlight.  Try putting a point
light source in a box with a circular shaped hole to make a light cone.

Dan Johnson


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From: David Fontaine
Subject: Re: optics and photons
Date: 26 Jan 2001 01:26:25
Message: <3A71188E.58A88206@faricy.net>
Paul Daniel Jones wrote:

> ARGH!!!  I am trying to make a lens which will generate parallel beams
> of light with a spotlight put at it's focal point. I have tried using
> some formulae from my physics book, but just can't get it. Is there
> anybody out there who could help me?

You want a parabolic mirror with a light at its focus, like in a
flashlight. I don't know how to find the focus of a parabola though, Warp
or somebody?

--
David Fontaine  <dav### [at] faricynet>  ICQ 55354965
My raytracing gallery:  http://davidf.faricy.net/


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From: ingo
Subject: Re: optics and photons
Date: 26 Jan 2001 08:28:53
Message: <Xns9035936D97D68seed7@povray.org>
in <3A7092D8.7B3FE2F2@psu.edu> Paul Daniel Jones wrote:

>ARGH!!!  I am trying to make a lens which will generate parallel beams
>of light with a spotlight put at it's focal point. I have tried using
>some formulae from my physics book, but just can't get it. Is there
>anybody out there who could help me?

Don't use a spotlight.

light_source {<9, 0, 0> rgb 1}  

#declare Lens = difference {  // f=5 units
   sphere{0,2.5}
   box{<0,-3,-3>,<3,3,3>}
   texture{T_Glass1}
   interior{ior 1.5}
}   

object {  //condensor, mak parallel beam
   Lens
   photons {
      photons_pass_through
   }
   translate <4,0,0>
}



Ingo

-- 
Photography: http://members.home.nl/ingoogni/
Pov-Ray    : http://members.home.nl/seed7/


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From: Kevin Wampler
Subject: Re: optics and photons
Date: 26 Jan 2001 11:56:02
Message: <3A71AB5E.147E9D67@u.arizona.edu>
A beam from the focus going directly horizontal should be reflected directly
upward, which means that the parabola at that point has a slope of 1 or -1.
Since the beam is horizontal, it gives us the y-coordinate of the focus.
So...

d/dx (a*x^2+b*x+c) = 2*a*x+b
2*a*x+b = 1    ==>   x = (1-b)/(2*a)
y = a*x^2+b*x+c   ==>   y = (4*a*c-b^2+1)/(4*a)

Similarly with the x-coordinate:

2*a*x+b = 0    ==>   x = -b/(2*a)

So, unless I made a mistake, the focus should be at <-b/(2*a),
(4*a*c-b^2+1)/(4*a)>


David Fontaine wrote:

> You want a parabolic mirror with a light at its focus, like in a
> flashlight. I don't know how to find the focus of a parabola though, Warp
> or somebody?


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From: Ben Birdsey
Subject: Re: optics and photons
Date: 26 Jan 2001 18:56:58
Message: <3A720F9C.400C9D1D@mail.com>
Being one of those physicists, I can tell you that an ordinary
spherical glass lens lens *will not* actually produce a parallel beam. 
Spherical lenses are actually just an approximation.  This might
surprise you, but it's true. 

	If you really want a parallel beam, use a reflective parabola like
David Fontaine suggested.

	Ben
	<><


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From: David Fontaine
Subject: Re: optics and photons
Date: 26 Jan 2001 22:46:00
Message: <3A724475.148126BC@faricy.net>
Ben Birdsey wrote:

>         Being one of those physicists, I can tell you that an ordinary
> spherical glass lens lens *will not* actually produce a parallel beam.
> Spherical lenses are actually just an approximation.  This might
> surprise you, but it's true.

Theoretically there should be some sort of lens that makes parallel beams. But
my guess is it is not made of intersected spheres...

--
David Fontaine  <dav### [at] faricynet>  ICQ 55354965
My raytracing gallery:  http://davidf.faricy.net/


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From: Ben Birdsey
Subject: Re: optics and photons
Date: 27 Jan 2001 00:38:50
Message: <3A725FBC.9C5560F6@mail.com>
There are so-called aspheric lenses which will focus light better, but
only light that is exactly on the optical axis.

	But I recently read an article about a gradient index sphere that
should focus light coming from any direction.  The trick here is that
the lens has a different index of refraction at its center than at its
edge.  Very interesting, but pretty hard to model in POV.

	Ben
	<><


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From: Dan Johnson
Subject: Re: optics and photons
Date: 27 Jan 2001 04:25:46
Message: <3A72957C.640F0228@hotmail.com>
Kevin Wampler wrote:

> A beam from the focus going directly horizontal should be reflected directly
> upward, which means that the parabola at that point has a slope of 1 or -1.
> Since the beam is horizontal, it gives us the y-coordinate of the focus.
> So...
>
> d/dx (a*x^2+b*x+c) = 2*a*x+b
> 2*a*x+b = 1    ==>   x = (1-b)/(2*a)
> y = a*x^2+b*x+c   ==>   y = (4*a*c-b^2+1)/(4*a)
>
> Similarly with the x-coordinate:
>
> 2*a*x+b = 0    ==>   x = -b/(2*a)
>
> So, unless I made a mistake, the focus should be at <-b/(2*a),
> (4*a*c-b^2+1)/(4*a)>
>
> David Fontaine wrote:
>
> > You want a parabolic mirror with a light at its focus, like in a
> > flashlight. I don't know how to find the focus of a parabola though, Warp
> > or somebody?

But if you use a parabola and a point light to make a parallel light, only the
light that bounces off the parabola is parallel, you have to block the rest of
the light somehow.

Dan Johnson


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From: Dan Johnson
Subject: Re: optics and photons
Date: 27 Jan 2001 04:57:19
Message: <3A729CE1.98DC421D@hotmail.com>
Ben Birdsey wrote:

>         Being one of those physicists, I can tell you that an ordinary
> spherical glass lens lens *will not* actually produce a parallel beam.
> Spherical lenses are actually just an approximation.  This might
> surprise you, but it's true.
>
>         If you really want a parallel beam, use a reflective parabola like
> David Fontaine suggested.
>
>         Ben
>         <><

Spherical aberration is one of the reasons people didn't trust Gallileo's
telescopes.  Philosophers liked to work with pure shapes, so it was commonly
known that glass distorts the truth.  I think the answer might be in a book
down the hall on optics, but I don't feel like looking, because my experience
tells me that even when you know you have seen the answer before, you can't
find it again without looking for a least a few hours.


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