Re: USRBDX Plot isn't seem Realistic for Scintillator ? need an advice...

From: vahan petrosyan <vahan4033_at_gmail.com>
Date: Fri, 01 Feb 2013 11:37:50 +0400

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Many Thanks Paola! Your answer was complete and clear.

I tried to implement your advices and got more reasonable plots.

But the same issue remained: I set refractive index , and absorption
coefficient to the material but I didn't get optical photons with other
energies.
   I get the same radiation picture ie. only one strict line. why? (I am
not sure that set Chernenkov and Transition radiation cards properly)

I also tried to implement USRYIELD card but I get as a result all zeroes.

I am attaching my modified files If you have time please take a look.

Thanks!




On 31.01.2013 17:50, Paola Sala wrote:
> Hello
> let's start from the easy thing.. yes , the "fraction of deposited energy"
> is what you write.
>
>
> The optical photon spectrum that you get is the scintillation line that
> you asked for,550nm wavelength .
> You do not see cherenkov and transition radiation because you did not
> assign any refraction index to the target material: the OPT-PROP card in
> your input has the value of the ref. index, but does NOT have the material
> to which it belongs. As a consequence, you had n=1 everywhere- > no
> cherenkov, no transition radiation.
>
> Be careful: if you now define correctly the refraction index, you should
> also define either an absorption coefficient or some absorbing surface,
> otherwise you risk that the optical photons will be confined inside your
> target like in a light guide, will not be absorbed, and the simulation
> will last forever.
>
> I see also some other details in the input file:
> - the optical photons in fluka have nothing to do with "standard" photons,
> so it is meaningless to decrease the transport threshold of photons to
> cover the visible spectrum. Besides, the cartd for photon threshold is
> EMFCUT, not PART-THRES. The transport energy limits for optical photons
> are set with OPT-PROP.
> Similarly, they do not undergo nuclear interactions, the PHOTONUC card is
> irrelevant for your case.
>
> Also, the use of 500 bins in the usrbdx angular distribution seems to me a
> bit excessive. Be also careful to one thing: The angle in USRBDX is the
> angle between the direction of the particle and the normal to the scoring
> surface. In your case, you are using as a surface a tilted box, so the
> "angle" will be refereed to different "normals" depending on which face of
> the box is the exiting one. If you want to have an angular distribution
> with respect to the beam, you should use the USRYIELD card,
>
> Hope this helps
> Paola
>
>>
>> Hi
>>
>> I try to get OPTICAL light output vs. angle when electron beam hits
>> scintillator. I get strange results. I get optical photons only on ONE
>> energy that corresponds to the green light!
>> It shouldn't be so strict, ie. only one line, there should be photons
>> with other energies also and peak on that energy.
>> Can you take a look if you have time? (what I may miss or did wrong)
>>
>> I am little confused about WHAT(2) ("fraction of deposited energy
>> going into
>> i-th scin. photon emission") parameter of OPT-PROD( sdum SCINT-WV ).
>> How can one calculate it?
>> I supposed formula Luminosity[ph/ev]*Energy(peak emission)[ev], am I
>> right?
>> Thanks!
>>
>> I am attaching my files
>>
>> Cheers
>>
>>
>>
>>
>
> Paola Sala
> INFN Milano
> tel. Milano +39-0250317374
> tel. CERN +41-227679148
>


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Received on Fri Feb 01 2013 - 18:21:29 CET