Compare the result of the frequency map with AT

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Hwang, Ji-Gwang
Posts: 42
Joined: 21 Jan 2010, 02:27

Re: Compare the result of the frequency map with AT

Post by Hwang, Ji-Gwang » 09 Sep 2010, 22:29

Dear Michael Borland

Thank for your reply.
I have two lattice file. One is bare lattice with 11 mm vertical gap. Other contain the undulator with 6mm vertical gap.
The second result get from second lattice with 20 undulator. I attached it.
I think that it is relate with twenty undulator. Because the effects don't comes from resonance line. But I not certain.
Sorry for bother you. Please check.

Best regards. Have a nice day.

From Hwang, Ji-Gwang
Attachments
pls2.lte
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michael_borland
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Location: Argonne National Laboratory
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Re: Compare the result of the frequency map with AT

Post by michael_borland » 09 Sep 2010, 22:35

Ji-Gwang,

Can you also post the input files for systematic and random multipoles and any other input files you used?

--Michael

Hwang, Ji-Gwang
Posts: 42
Joined: 21 Jan 2010, 02:27

Re: Compare the result of the frequency map with AT

Post by Hwang, Ji-Gwang » 10 Sep 2010, 01:16

Dear Michael Borland

I'm post it. Please check.

Sincerely yours.

From Hwang, Ji-Gwang
Attachments
sextRanMult.sdds
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quadSysMult.sdds
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quadRanMult.sdds
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Hwang, Ji-Gwang
Posts: 42
Joined: 21 Jan 2010, 02:27

Re: Compare the result of the frequency map with AT

Post by Hwang, Ji-Gwang » 10 Sep 2010, 01:17

Dear Michael Borland

I'm post it. Please check.

Sincerely yours.

From Hwang, Ji-Gwang
Attachments
sextSysMult.sdds
(943 Bytes) Downloaded 883 times

michael_borland
Posts: 1959
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Location: Argonne National Laboratory
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Re: Compare the result of the frequency map with AT

Post by michael_borland » 15 Sep 2010, 08:54

JI-Gwang,

The problem is with the WIGGLER elements. This is a matrix implementation that should not be used for ring tracking. You need to use UKICKMAP or CWIGGLER.

--Michael

Hwang, Ji-Gwang
Posts: 42
Joined: 21 Jan 2010, 02:27

Re: Compare the result of the frequency map with AT

Post by Hwang, Ji-Gwang » 21 Sep 2010, 01:13

Dear Michael Borland

Thans to your reply. I will try to check it.
Always thank you for your helpful reply.

Have a nice day. Best regards.

Hwang,Ji-Gwang

lyyang
Posts: 7
Joined: 09 Dec 2009, 17:51

Re: Compare the result of the frequency map with AT

Post by lyyang » 04 Oct 2010, 10:08

Hi,

In my opinion, it is very difficult to identify the right tune in every case, especially when there is coupling and lattice errors. The highest peak of spectrum does not mean it is the tune.

In the attachment, is the spectrum of x and y coordinate, 2048 turns, and the initial amplitude of x is ten times of y. The red is horizontal. The lattice I was using has various roll/misalignment errors. So the horizontal and vertical have identical frequency due to the coupling. But the power(height of the spectrum) are different.

Can you guess the true tune ? or the zero-amplitude twiss tune ? it is (.40, .33). the nux=.40 has no doubt. But please take a look at vertical tune around .33, the peak is so weak.

Of course we can apply different intelligence to identify the true tunes, but in general it is not easy to find a set of rules which applies to all cases. e.g. we can narrow down the tune range, but at high chromaticity it does not work well for the plots in x-dp/p plane.


Lingyun
Attachments
an-difficult-example-of-tune-searching.png

michael_borland
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Re: Compare the result of the frequency map with AT

Post by michael_borland » 04 Oct 2010, 12:04

Lingyun,

This is a very good point and a nice illustration of how difficult it is to determine the tunes when there is coupling.

Some years ago, I added tracking-based computation of tune shift with amplitude and tune footprint, as a way to perform optimization of nonlinear properties of rings. It failed for just the reason you describe. When the amplitude got large, it was hard to determine the tunes, but it is the large amplitudes that we are most interested in.

--Michael

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