Acapella looping through files in a folder

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I have multiple pairs of tif images that I'd like to analyze using Acapella. I can
hard code a particular pair of images I want to analyze and the analysis
works. However, could someone please point me in the right direction for
which approach to take for looping through many pairs of images in a folder.

Many thanks, John

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Assuming that your pairs of images are numbered in a consistent pattern,
the easiest way is probably to write a foreach() loop over the sequence of
numbers, and then use the sprintf() function to create your filename. You
can then use this filename for your further processing:

        foreach(1..numImages, "idx", 1)
                sprintf(filename1, "Blue%002d.tif", idx)
                sprintf(filename2, "Green%002d.tif", idx)
                ...
        end()

Google for the syntax of the formatting expression in sprintf(), Acapella
uses the same syntax as C++. A code in the form %002d generates a fields
of three digits with leading zeroes, so 001, 002, 003, ...

The alternative, but that is rather trickier, is to use glob() with
a suitable pattern to get a list of the files for one channel, e.g.
glob("Blue*.tif"), then use pathsplit() to isolate the filename from
the full path, then regex() to break the filename into the relevant
parts, and finally sprintf() to construct the filename for the matching
file. I would use that only if the pattern of your filenames is really
unpredictable.

Best Regards,

Emmanuel




--
 Emmanuel Gustin,    Tel. (+32) 14 64 1586,    e-mail: [hidden email]     ! telephone number changed !



-----Original Message-----
From: Confocal Microscopy List [mailto:[hidden email]] On Behalf Of John Bradley
Sent: donderdag 18 november 2010 15:57
To: [hidden email]
Subject: Acapella looping through files in a folder

*****
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*****

I have multiple pairs of tif images that I'd like to analyze using Acapella. I can
hard code a particular pair of images I want to analyze and the analysis
works. However, could someone please point me in the right direction for
which approach to take for looping through many pairs of images in a folder.

Many thanks, John

*****
To join, leave or search the confocal microscopy listserv, go to:
http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
*****

Dear microscopists,

I'm planning to go through a regimen of  adjusting  the MaiTai DeepSee on a variety of samples with different optics  to see what changes there are in depth penetration (and, maybe, preservation of biological activity).
 
Does anybody have experience with this?  If so, have you found that the DeepSee provides a noticeable practical benefit over the MaiTai without it?

Any comments welcome and please feel free to contact me offline at [hidden email]

Thank you!

Sincerely,

Michael C.

------------------------------------------------------------
This email message, including any attachments, is for the sole use of the intended recipient(s) and may contain information that is proprietary, confidential, and exempt from disclosure under applicable law. Any unauthorized review, use, disclosure, or distribution is prohibited. If you have received this email in error please notify the sender by return email and delete the original message. Please note, the recipient should check this email and any attachments for the presence of viruses. The organization accepts no liability for any damage caused by any virus transmitted by this email.
=================================

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Hi Michael,

We have the DeepSee on our MaiTai and have found that it doesn't do a
lot on our system. At extreme depths, say greater than 500um you can get
a small enhancement in signal strength and quality but it is only very
minor. It may give you a few extra microns penetration but thats about
it.

It really depends on how much the optics of your system are
dispersing/chirping the beam. If they are not altering it much then
pre-chirping it will not do a lot.

This is all based on qualitative assessment, i have not quantitated any
of this. Also we have recently received a new Olympus 25x NA1.05
objective specifically designed for MP imaging. I have not seen how this
performs yet with the DeepSee.


Cheers

Cam



Cameron J. Nowell
Microscopy Manager
Centre for Advanced Microscopy
Ludwig Institute for Cancer Research
PO Box 2008
Royal Melbourne Hospital
Victoria, 3050
AUSTRALIA
Office: +61 3 9341 3155
Mobile: +61422882700
Fax: +61 3 9341 3104
Facility Website



-----Original Message-----
From: Confocal Microscopy List [mailto:[hidden email]]
On Behalf Of Cammer, Michael
Sent: Friday, 19 November 2010 4:08 AM
To: [hidden email]
Subject: MaiTai DeepSee adjustments on multiphoton microscope

*****
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*****

Dear microscopists,

I'm planning to go through a regimen of  adjusting  the MaiTai DeepSee
on a variety of samples with different optics  to see what changes there
are in depth penetration (and, maybe, preservation of biological
activity).
 
Does anybody have experience with this?  If so, have you found that the
DeepSee provides a noticeable practical benefit over the MaiTai without
it?

Any comments welcome and please feel free to contact me offline at
[hidden email]

Thank you!

Sincerely,

Michael C.

------------------------------------------------------------
This email message, including any attachments, is for the sole use of
the intended recipient(s) and may contain information that is
proprietary, confidential, and exempt from disclosure under applicable
law. Any unauthorized review, use, disclosure, or distribution is
prohibited. If you have received this email in error please notify the
sender by return email and delete the original message. Please note, the
recipient should check this email and any attachments for the presence
of viruses. The organization accepts no liability for any damage caused
by any virus transmitted by this email.
=================================

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*****


 Hi Michael,

i tried a quantification at 800 nm excitation 450 - 500 micrometer into fixed lymph nodes using the 25x Olympus objective. Over the range of the deepsee compensation i found a change of a factor two in fluorescence. One thing is that i could not set the compensation to zero with our deepsee model  so i don't know what the fluorescence would be without deepsee. Anyhow with a good estimate of the GDD of the system from the deepsee motor position one can calculate how much this would broaden the 100 fs pulse out of the MaiTai and for our system this is about 220 fs. so you would have to use 1.5x more laser power to get the same signal without pre-chirp.

In my experience you don't need to optimise for different samples as the less than one mm depth into the sample is insignificant compared to the thickness of the optics and GVD of an AOM. There is a slight difference for different objectives though (more or less glass). My conclusion was that for live samples the pre-chirp is definetly a benefit because you can use lower laser power. In strongly scattering samples like lymph nodes the signal decreases so rapidly with depth that you hardly notice a difference in penetration depth when adjusting the pre-chirp.

best wishes

Andreas


 

 

-----Original Message-----
From: Cameron Nowell <[hidden email]>
To: [hidden email]
Sent: Thu, 18 Nov 2010 21:58
Subject: Re: MaiTai DeepSee adjustments on multiphoton microscope


*****

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*****



Hi Michael,



We have the DeepSee on our MaiTai and have found that it doesn't do a

lot on our system. At extreme depths, say greater than 500um you can get

a small enhancement in signal strength and quality but it is only very

minor. It may give you a few extra microns penetration but thats about

it.



It really depends on how much the optics of your system are

dispersing/chirping the beam. If they are not altering it much then

pre-chirping it will not do a lot.



This is all based on qualitative assessment, i have not quantitated any

of this. Also we have recently received a new Olympus 25x NA1.05

objective specifically designed for MP imaging. I have not seen how this

performs yet with the DeepSee.





Cheers



Cam







Cameron J. Nowell

Microscopy Manager

Centre for Advanced Microscopy

Ludwig Institute for Cancer Research

PO Box 2008

Royal Melbourne Hospital

Victoria, 3050

AUSTRALIA

Office: +61 3 9341 3155

Mobile: +61422882700

Fax: +61 3 9341 3104

Facility Website







-----Original Message-----

From: Confocal Microscopy List [mailto:[hidden email]]

On Behalf Of Cammer, Michael

Sent: Friday, 19 November 2010 4:08 AM

To: [hidden email]

Subject: MaiTai DeepSee adjustments on multiphoton microscope



*****

To join, leave or search the confocal microscopy listserv, go to:

http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy

*****



Dear microscopists,



I'm planning to go through a regimen of  adjusting  the MaiTai DeepSee

on a variety of samples with different optics  to see what changes there

are in depth penetration (and, maybe, preservation of biological

activity).

 

Does anybody have experience with this?  If so, have you found that the

DeepSee provides a noticeable practical benefit over the MaiTai without

it?



Any comments welcome and please feel free to contact me offline at

[hidden email]



Thank you!



Sincerely,



Michael C.



------------------------------------------------------------

This email message, including any attachments, is for the sole use of

the intended recipient(s) and may contain information that is

proprietary, confidential, and exempt from disclosure under applicable

law. Any unauthorized review, use, disclosure, or distribution is

prohibited. If you have received this email in error please notify the

sender by return email and delete the original message. Please note, the

recipient should check this email and any attachments for the presence

of viruses. The organization accepts no liability for any damage caused

by any virus transmitted by this email.

=================================


 

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*****

Andreas, can expound on the sentence below? I'm not sure what you mean
exactly.
Thank you!

"In strongly scattering samples like lymph nodes the signal decreases so
rapidly with depth that you hardly notice a difference in penetration
depth when adjusting the pre-chirp".

Brian D Armstrong PhD
Light Microscopy Core Manager
Beckman Research Institute
City of Hope
Dept of Neuroscience
1450 E Duarte Rd
Duarte, CA 91010
626-256-4673 x62872
http://www.cityofhope.org/research/support/Light-Microscopy-Digital-Imag
ing/Pages/default.aspx

-----Original Message-----
From: Confocal Microscopy List [mailto:[hidden email]]
On Behalf Of Andreas Bruckbauer
Sent: Thursday, November 18, 2010 11:09 PM
To: [hidden email]
Subject: Re: MaiTai DeepSee adjustments on multiphoton microscope

*****
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*****


 Hi Michael,

i tried a quantification at 800 nm excitation 450 - 500 micrometer into
fixed lymph nodes using the 25x Olympus objective. Over the range of the
deepsee compensation i found a change of a factor two in fluorescence.
One thing is that i could not set the compensation to zero with our
deepsee model  so i don't know what the fluorescence would be without
deepsee. Anyhow with a good estimate of the GDD of the system from the
deepsee motor position one can calculate how much this would broaden the
100 fs pulse out of the MaiTai and for our system this is about 220 fs.
so you would have to use 1.5x more laser power to get the same signal
without pre-chirp.

In my experience you don't need to optimise for different samples as the
less than one mm depth into the sample is insignificant compared to the
thickness of the optics and GVD of an AOM. There is a slight difference
for different objectives though (more or less glass). My conclusion was
that for live samples the pre-chirp is definetly a benefit because you
can use lower laser power. In strongly scattering samples like lymph
nodes the signal decreases so rapidly with depth that you hardly notice
a difference in penetration depth when adjusting the pre-chirp.

best wishes

Andreas


 

 

-----Original Message-----
From: Cameron Nowell <[hidden email]>
To: [hidden email]
Sent: Thu, 18 Nov 2010 21:58
Subject: Re: MaiTai DeepSee adjustments on multiphoton microscope


*****

To join, leave or search the confocal microscopy listserv, go to:

http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy

*****



Hi Michael,



We have the DeepSee on our MaiTai and have found that it doesn't do a

lot on our system. At extreme depths, say greater than 500um you can get

a small enhancement in signal strength and quality but it is only very

minor. It may give you a few extra microns penetration but thats about

it.



It really depends on how much the optics of your system are

dispersing/chirping the beam. If they are not altering it much then

pre-chirping it will not do a lot.



This is all based on qualitative assessment, i have not quantitated any

of this. Also we have recently received a new Olympus 25x NA1.05

objective specifically designed for MP imaging. I have not seen how this

performs yet with the DeepSee.





Cheers



Cam







Cameron J. Nowell

Microscopy Manager

Centre for Advanced Microscopy

Ludwig Institute for Cancer Research

PO Box 2008

Royal Melbourne Hospital

Victoria, 3050

AUSTRALIA

Office: +61 3 9341 3155

Mobile: +61422882700

Fax: +61 3 9341 3104

Facility Website







-----Original Message-----

From: Confocal Microscopy List [mailto:[hidden email]]

On Behalf Of Cammer, Michael

Sent: Friday, 19 November 2010 4:08 AM

To: [hidden email]

Subject: MaiTai DeepSee adjustments on multiphoton microscope



*****

To join, leave or search the confocal microscopy listserv, go to:

http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy

*****



Dear microscopists,



I'm planning to go through a regimen of  adjusting  the MaiTai DeepSee

on a variety of samples with different optics  to see what changes there

are in depth penetration (and, maybe, preservation of biological

activity).

 

Does anybody have experience with this?  If so, have you found that the

DeepSee provides a noticeable practical benefit over the MaiTai without

it?



Any comments welcome and please feel free to contact me offline at

[hidden email]



Thank you!



Sincerely,



Michael C.



------------------------------------------------------------

This email message, including any attachments, is for the sole use of

the intended recipient(s) and may contain information that is

proprietary, confidential, and exempt from disclosure under applicable

law. Any unauthorized review, use, disclosure, or distribution is

prohibited. If you have received this email in error please notify the

sender by return email and delete the original message. Please note, the

recipient should check this email and any attachments for the presence

of viruses. The organization accepts no liability for any damage caused

by any virus transmitted by this email.

=================================


 


---------------------------------------------------------------------
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This message and any attachments are intended solely for the individual or entity to which they are addressed. This communication may contain information that is privileged, confidential, or exempt from disclosure under applicable law (e.g., personal health information, research data, financial information). Because this e-mail has been sent without encryption, individuals other than the intended recipient may be able to view the information, forward it to others or tamper with the information without the knowledge or consent of the sender. If you are not the intended recipient, or the employee or person responsible for delivering the message to the intended recipient, any dissemination, distribution or copying of the communication is strictly prohibited. If you received the communication in error, please notify the sender immediately by replying to this message and deleting the message and any accompanying files from your system. If, due to the security risks, you do not wish to receive further communications via e-mail, please reply to this message and inform the sender that you do not wish to receive further e-mail from the sender.

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For deep imaging I think you would benefit more from adaptive optics than
pulse compression.
I have a home-built compressor that we have used to run some experiments.
We found that shortening the pulse increases your fluorescence as
advertised.  If you are doing live imaging though, it kills your tissue
pretty quickly, even if you back off on average power.  The shorter pulses
generate more higher-order effects which typically includes free radical
production.  We found that a happy medium of 150 to 200 fs at the sample
seems to be good for viability yet still gives reasonable fluorescence.  We
have not examined the effect for tissue penetration yet.

Craig



On Fri, Nov 19, 2010 at 9:30 AM, Armstrong, Brian <[hidden email]>wrote:

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*****


 Brian,

the reasoning behind this sentence is that the laser power decreases exponentionally with depth and I estimate the decay length (ld) in our lymph nodes to be about 170 micrometers. The 2 photon signal decreases then with exp(-2z/ld) (see e.g. Helmchen, Denk Nature Methods 2005). If you have double the signal you would penetrate "only" ln(2)/2 * ld  = 0.35 ld or 60 microns more in the example above. I must admid that this is more than "hardly noticable", however experimentally we often find a "brick wall" which we cannot penetrate, the laser seems not to be focused any more. From tissue sections we know that there are still labelled cells in this depth.

best wishes

Andreas

 


 

 

-----Original Message-----
From: Armstrong, Brian <[hidden email]>
To: [hidden email]
Sent: Fri, 19 Nov 2010 16:30
Subject: Re: MaiTai DeepSee adjustments on multiphoton microscope


*****

To join, leave or search the confocal microscopy listserv, go to:

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*****



Andreas, can expound on the sentence below? I'm not sure what you mean

exactly.

Thank you!



"In strongly scattering samples like lymph nodes the signal decreases so

rapidly with depth that you hardly notice a difference in penetration

depth when adjusting the pre-chirp".



Brian D Armstrong PhD

Light Microscopy Core Manager

Beckman Research Institute

City of Hope

Dept of Neuroscience

1450 E Duarte Rd

Duarte, CA 91010

626-256-4673 x62872

http://www.cityofhope.org/research/support/Light-Microscopy-Digital-Imag

ing/Pages/default.aspx



-----Original Message-----

From: Confocal Microscopy List [mailto:[hidden email]]

On Behalf Of Andreas Bruckbauer

Sent: Thursday, November 18, 2010 11:09 PM

To: [hidden email]

Subject: Re: MaiTai DeepSee adjustments on multiphoton microscope



*****

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*****





 Hi Michael,



i tried a quantification at 800 nm excitation 450 - 500 micrometer into

fixed lymph nodes using the 25x Olympus objective. Over the range of the

deepsee compensation i found a change of a factor two in fluorescence.

One thing is that i could not set the compensation to zero with our

deepsee model  so i don't know what the fluorescence would be without

deepsee. Anyhow with a good estimate of the GDD of the system from the

deepsee motor position one can calculate how much this would broaden the

100 fs pulse out of the MaiTai and for our system this is about 220 fs.

so you would have to use 1.5x more laser power to get the same signal

without pre-chirp.



In my experience you don't need to optimise for different samples as the

less than one mm depth into the sample is insignificant compared to the

thickness of the optics and GVD of an AOM. There is a slight difference

for different objectives though (more or less glass). My conclusion was

that for live samples the pre-chirp is definetly a benefit because you

can use lower laser power. In strongly scattering samples like lymph

nodes the signal decreases so rapidly with depth that you hardly notice

a difference in penetration depth when adjusting the pre-chirp.



best wishes



Andreas





 



 



-----Original Message-----

From: Cameron Nowell <[hidden email]>

To: [hidden email]

Sent: Thu, 18 Nov 2010 21:58

Subject: Re: MaiTai DeepSee adjustments on multiphoton microscope





*****



To join, leave or search the confocal microscopy listserv, go to:



http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy



*****







Hi Michael,







We have the DeepSee on our MaiTai and have found that it doesn't do a



lot on our system. At extreme depths, say greater than 500um you can get



a small enhancement in signal strength and quality but it is only very



minor. It may give you a few extra microns penetration but thats about



it.







It really depends on how much the optics of your system are



dispersing/chirping the beam. If they are not altering it much then



pre-chirping it will not do a lot.







This is all based on qualitative assessment, i have not quantitated any



of this. Also we have recently received a new Olympus 25x NA1.05



objective specifically designed for MP imaging. I have not seen how this



performs yet with the DeepSee.











Cheers







Cam















Cameron J. Nowell



Microscopy Manager



Centre for Advanced Microscopy



Ludwig Institute for Cancer Research



PO Box 2008



Royal Melbourne Hospital



Victoria, 3050



AUSTRALIA



Office: +61 3 9341 3155



Mobile: +61422882700



Fax: +61 3 9341 3104



Facility Website















-----Original Message-----



From: Confocal Microscopy List [mailto:[hidden email]]



On Behalf Of Cammer, Michael



Sent: Friday, 19 November 2010 4:08 AM



To: [hidden email]



Subject: MaiTai DeepSee adjustments on multiphoton microscope







*****



To join, leave or search the confocal microscopy listserv, go to:



http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy



*****







Dear microscopists,







I'm planning to go through a regimen of  adjusting  the MaiTai DeepSee



on a variety of samples with different optics  to see what changes there



are in depth penetration (and, maybe, preservation of biological



activity).



 



Does anybody have experience with this?  If so, have you found that the



DeepSee provides a noticeable practical benefit over the MaiTai without



it?







Any comments welcome and please feel free to contact me offline at



[hidden email]







Thank you!







Sincerely,







Michael C.







------------------------------------------------------------



This email message, including any attachments, is for the sole use of



the intended recipient(s) and may contain information that is



proprietary, confidential, and exempt from disclosure under applicable



law. Any unauthorized review, use, disclosure, or distribution is



prohibited. If you have received this email in error please notify the



sender by return email and delete the original message. Please note, the



recipient should check this email and any attachments for the presence



of viruses. The organization accepts no liability for any damage caused



by any virus transmitted by this email.



=================================





 





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entity to which they are addressed. This communication may contain information

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(e.g., personal health information, research data, financial information).

Because this e-mail has been sent without encryption, individuals other than the

intended recipient may be able to view the information, forward it to others or

tamper with the information without the knowledge or consent of the sender. If

you are not the intended recipient, or the employee or person responsible for

delivering the message to the intended recipient, any dissemination,

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received the communication in error, please notify the sender immediately by

replying to this message and deleting the message and any accompanying files

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*****

Hi Andreas, we are imaging lymph nodes and notice the same thing.

What was not clear to me in your sentence is whether or not the
pre-chirp helps at these greater depths. Are you saying that because of
this "Denk effect" (2005) the pre-chirp does not help much?
Or, are you saying that the pre-chirp helps SO much that you hardly
notice this "Denk effect" any more.

Thanks,

Brian Armstrong PhD
Light Microscopy and Digital Imaging
Beckman Research Institute of the City of Hope
x62872 office
x62874 lab
http://www.coh.org/shared-resources/light-microscopy-imaging/Pages/defau
lt.aspx
-----Original Message-----
From: Confocal Microscopy List [mailto:[hidden email]]
On Behalf Of Andreas Bruckbauer
Sent: Friday, November 19, 2010 1:48 PM
To: [hidden email]
Subject: Re: MaiTai DeepSee adjustments on multiphoton microscope

*****
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*****


 Brian,

the reasoning behind this sentence is that the laser power decreases
exponentionally with depth and I estimate the decay length (ld) in our
lymph nodes to be about 170 micrometers. The 2 photon signal decreases
then with exp(-2z/ld) (see e.g. Helmchen, Denk Nature Methods 2005). If
you have double the signal you would penetrate "only" ln(2)/2 * ld  =
0.35 ld or 60 microns more in the example above. I must admid that this
is more than "hardly noticable", however experimentally we often find a
"brick wall" which we cannot penetrate, the laser seems not to be
focused any more. From tissue sections we know that there are still
labelled cells in this depth.

best wishes

Andreas

 


 

 

-----Original Message-----
From: Armstrong, Brian <[hidden email]>
To: [hidden email]
Sent: Fri, 19 Nov 2010 16:30
Subject: Re: MaiTai DeepSee adjustments on multiphoton microscope


*****

To join, leave or search the confocal microscopy listserv, go to:

http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy

*****



Andreas, can expound on the sentence below? I'm not sure what you mean

exactly.

Thank you!



"In strongly scattering samples like lymph nodes the signal decreases so

rapidly with depth that you hardly notice a difference in penetration

depth when adjusting the pre-chirp".



Brian D Armstrong PhD

Light Microscopy Core Manager

Beckman Research Institute

City of Hope

Dept of Neuroscience

1450 E Duarte Rd

Duarte, CA 91010

626-256-4673 x62872

http://www.cityofhope.org/research/support/Light-Microscopy-Digital-Imag

ing/Pages/default.aspx



-----Original Message-----

From: Confocal Microscopy List [mailto:[hidden email]]

On Behalf Of Andreas Bruckbauer

Sent: Thursday, November 18, 2010 11:09 PM

To: [hidden email]

Subject: Re: MaiTai DeepSee adjustments on multiphoton microscope



*****

To join, leave or search the confocal microscopy listserv, go to:

http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy

*****





 Hi Michael,



i tried a quantification at 800 nm excitation 450 - 500 micrometer into

fixed lymph nodes using the 25x Olympus objective. Over the range of the

deepsee compensation i found a change of a factor two in fluorescence.

One thing is that i could not set the compensation to zero with our

deepsee model  so i don't know what the fluorescence would be without

deepsee. Anyhow with a good estimate of the GDD of the system from the

deepsee motor position one can calculate how much this would broaden the

100 fs pulse out of the MaiTai and for our system this is about 220 fs.

so you would have to use 1.5x more laser power to get the same signal

without pre-chirp.



In my experience you don't need to optimise for different samples as the

less than one mm depth into the sample is insignificant compared to the

thickness of the optics and GVD of an AOM. There is a slight difference

for different objectives though (more or less glass). My conclusion was

that for live samples the pre-chirp is definetly a benefit because you

can use lower laser power. In strongly scattering samples like lymph

nodes the signal decreases so rapidly with depth that you hardly notice

a difference in penetration depth when adjusting the pre-chirp.



best wishes



Andreas





 



 



-----Original Message-----

From: Cameron Nowell <[hidden email]>

To: [hidden email]

Sent: Thu, 18 Nov 2010 21:58

Subject: Re: MaiTai DeepSee adjustments on multiphoton microscope





*****



To join, leave or search the confocal microscopy listserv, go to:



http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy



*****







Hi Michael,







We have the DeepSee on our MaiTai and have found that it doesn't do a



lot on our system. At extreme depths, say greater than 500um you can get



a small enhancement in signal strength and quality but it is only very



minor. It may give you a few extra microns penetration but thats about



it.







It really depends on how much the optics of your system are



dispersing/chirping the beam. If they are not altering it much then



pre-chirping it will not do a lot.







This is all based on qualitative assessment, i have not quantitated any



of this. Also we have recently received a new Olympus 25x NA1.05



objective specifically designed for MP imaging. I have not seen how this



performs yet with the DeepSee.











Cheers







Cam















Cameron J. Nowell



Microscopy Manager



Centre for Advanced Microscopy



Ludwig Institute for Cancer Research



PO Box 2008



Royal Melbourne Hospital



Victoria, 3050



AUSTRALIA



Office: +61 3 9341 3155



Mobile: +61422882700



Fax: +61 3 9341 3104



Facility Website















-----Original Message-----



From: Confocal Microscopy List [mailto:[hidden email]]



On Behalf Of Cammer, Michael



Sent: Friday, 19 November 2010 4:08 AM



To: [hidden email]



Subject: MaiTai DeepSee adjustments on multiphoton microscope







*****



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Dear microscopists,







I'm planning to go through a regimen of  adjusting  the MaiTai DeepSee



on a variety of samples with different optics  to see what changes there



are in depth penetration (and, maybe, preservation of biological



activity).



 



Does anybody have experience with this?  If so, have you found that the



DeepSee provides a noticeable practical benefit over the MaiTai without



it?







Any comments welcome and please feel free to contact me offline at



[hidden email]







Thank you!







Sincerely,







Michael C.







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Good evening,

I do neither know whether this has been mentioned before nor do I want to
start a Coherent vs. Spectra Physics battle (I have actually both,
DeepSees and Vision IIs here and I have been working with both, Spectra
Physics and Coherent lasers since 1985 and I like the products of both
companies, and the engineers of both companies, as far as I can judge, do
a great job).

While the DeepSees can be bought with pulse lengths specified to be
shorter than 70fsec - the Visions are not specified to attain pulse
lengths that short - the DeepSee GDC has a disadvantage compared to the
Vision II GDC:
While the Visions can compensate on all wavelengths from 0 to the max.
possible compensation value at the resp. wavelength, the DeepSee has a
minimum compensation value, which is, according to
http://www.newport.com/images/webDocuments-EN/images/15374.pdf ,

Standard Dispersion Compensation Range 1
690 nm: -22,500 fs2 to -41,700 fs2
800 nm: -8,900 fs2 to -24,500 fs2
1040 nm: 0 fs2 to -9,600 fs2.

(wavelengths between these values can be coarsly approximated by linear
interpolation, there also is a complete curve somewhere but I do not find
it right now).
Optionally, a "low dispersion version" can be purchased, but this does
then only cover the values from 0 up to the LOWER limits of the standard
compensation bands.

As a consequence, in certain configurations GVD cannot be DeepSee
compensated completely in certain wavelength ranges. This is the case,
e.g., when using EOMs with KD*P crystals (which have a somewhat "strange"
GVD vs. lambda behaviour since the refractive index of KD*P changes from
normal to anomalous dispersion somewhere around 1000nm). EOMs good for
MPLSM setups do in many cases have KD*P crystals. If you calculate the GDC
values, which you need, using appropriate Sellmeier formulas, you'll find
out that you can compensate, in the described case, quite well in the
central wavelength range of the DeepSee, while you always over resp.
undercompensate in the short- resp. long wavelength regions of the
emission spectrum of the laser. Since the DeepSee emits comparatively
short pulses and since pulse stretching is a non-linear phenomenon, you
might end up in the preparation with longer pulses when using a DeepSee
compared to when using a Vision not in spite of but BECAUSE the DeepSee's
original pulse length is shorter than the Vision's.

The easiest way to find out how good your pulses are is, of course, to
measure them with an autocorrelator; then you do not have to bother about
programming the Sellmeier formulas for all the material the laser beam has
to pass in your setup before arriving in the objective focus.

Best wishes and have a good sunday!

Johannes





--
P. Johannes Helm, M.Sc. PhD
Seniorengineer
CMBN
University of Oslo
Institute of Basic Medical Science
Department of Anatomy
Postboks 1105 - Blindern
NO-0317 Oslo

Voice: +47 228 51159
Fax: +47 228 51499

WWW: folk.uio.no/jhelm

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Hi Brian,

good (or bad) that you find the same, adjusting the pre-chirp definetly helps to increase the signal deep in the tissue, the cells in the last 50 micrometers are 2x brighter with the right deepsee settings but for some reason cells deeper in the tissues remain invisible.

best wishes

Andreas










-----Original Message-----
From: Armstrong, Brian <[hidden email]>
To: [hidden email]
Sent: Fri, 19 Nov 2010 22:08
Subject: Re: MaiTai DeepSee adjustments on multiphoton microscope


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Hi Andreas, we are imaging lymph nodes and notice the same thing.
What was not clear to me in your sentence is whether or not the
re-chirp helps at these greater depths. Are you saying that because of
his "Denk effect" (2005) the pre-chirp does not help much?
r, are you saying that the pre-chirp helps SO much that you hardly
otice this "Denk effect" any more.
Thanks,
Brian Armstrong PhD
ight Microscopy and Digital Imaging
eckman Research Institute of the City of Hope
62872 office
62874 lab
ttp://www.coh.org/shared-resources/light-microscopy-imaging/Pages/defau
t.aspx
----Original Message-----
rom: Confocal Microscopy List [mailto:[hidden email]]
n Behalf Of Andreas Bruckbauer
ent: Friday, November 19, 2010 1:48 PM
o: [hidden email]
ubject: Re: MaiTai DeepSee adjustments on multiphoton microscope
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Brian,
the reasoning behind this sentence is that the laser power decreases
xponentionally with depth and I estimate the decay length (ld) in our
ymph nodes to be about 170 micrometers. The 2 photon signal decreases
hen with exp(-2z/ld) (see e.g. Helmchen, Denk Nature Methods 2005). If
ou have double the signal you would penetrate "only" ln(2)/2 * ld  =
.35 ld or 60 microns more in the example above. I must admid that this
s more than "hardly noticable", however experimentally we often find a
brick wall" which we cannot penetrate, the laser seems not to be
ocused any more. From tissue sections we know that there are still
abelled cells in this depth.
best wishes
Andreas
 


 
-----Original Message-----
rom: Armstrong, Brian <[hidden email]>
o: [hidden email]
ent: Fri, 19 Nov 2010 16:30
ubject: Re: MaiTai DeepSee adjustments on multiphoton microscope

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Andreas, can expound on the sentence below? I'm not sure what you mean
exactly.
Thank you!

"In strongly scattering samples like lymph nodes the signal decreases so
rapidly with depth that you hardly notice a difference in penetration
depth when adjusting the pre-chirp".

Brian D Armstrong PhD
Light Microscopy Core Manager
Beckman Research Institute
City of Hope
Dept of Neuroscience
1450 E Duarte Rd
Duarte, CA 91010
626-256-4673 x62872
http://www.cityofhope.org/research/support/Light-Microscopy-Digital-Imag
ing/Pages/default.aspx

-----Original Message-----
From: Confocal Microscopy List [mailto:[hidden email]]
On Behalf Of Andreas Bruckbauer
Sent: Thursday, November 18, 2010 11:09 PM
To: [hidden email]
Subject: Re: MaiTai DeepSee adjustments on multiphoton microscope

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 Hi Michael,

i tried a quantification at 800 nm excitation 450 - 500 micrometer into
fixed lymph nodes using the 25x Olympus objective. Over the range of the
deepsee compensation i found a change of a factor two in fluorescence.
One thing is that i could not set the compensation to zero with our
deepsee model  so i don't know what the fluorescence would be without
deepsee. Anyhow with a good estimate of the GDD of the system from the
deepsee motor position one can calculate how much this would broaden the
100 fs pulse out of the MaiTai and for our system this is about 220 fs.
so you would have to use 1.5x more laser power to get the same signal
without pre-chirp.

In my experience you don't need to optimise for different samples as the
less than one mm depth into the sample is insignificant compared to the
thickness of the optics and GVD of an AOM. There is a slight difference
for different objectives though (more or less glass). My conclusion was
that for live samples the pre-chirp is definetly a benefit because you
can use lower laser power. In strongly scattering samples like lymph
nodes the signal decreases so rapidly with depth that you hardly notice
a difference in penetration depth when adjusting the pre-chirp.

best wishes

Andreas


 

 

-----Original Message-----
From: Cameron Nowell <[hidden email]>
To: [hidden email]
Sent: Thu, 18 Nov 2010 21:58
Subject: Re: MaiTai DeepSee adjustments on multiphoton microscope


*****

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Hi Michael,



We have the DeepSee on our MaiTai and have found that it doesn't do a

lot on our system. At extreme depths, say greater than 500um you can get

a small enhancement in signal strength and quality but it is only very

minor. It may give you a few extra microns penetration but thats about

it.



It really depends on how much the optics of your system are

dispersing/chirping the beam. If they are not altering it much then

pre-chirping it will not do a lot.



This is all based on qualitative assessment, i have not quantitated any

of this. Also we have recently received a new Olympus 25x NA1.05

objective specifically designed for MP imaging. I have not seen how this

performs yet with the DeepSee.





Cheers



Cam







Cameron J. Nowell

Microscopy Manager

Centre for Advanced Microscopy

Ludwig Institute for Cancer Research

PO Box 2008

Royal Melbourne Hospital

Victoria, 3050

AUSTRALIA

Office: +61 3 9341 3155

Mobile: +61422882700

Fax: +61 3 9341 3104

Facility Website







-----Original Message-----

From: Confocal Microscopy List [mailto:[hidden email]]

On Behalf Of Cammer, Michael

Sent: Friday, 19 November 2010 4:08 AM

To: [hidden email]

Subject: MaiTai DeepSee adjustments on multiphoton microscope



*****

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*****



Dear microscopists,



I'm planning to go through a regimen of  adjusting  the MaiTai DeepSee

on a variety of samples with different optics  to see what changes there

are in depth penetration (and, maybe, preservation of biological

activity).

 

Does anybody have experience with this?  If so, have you found that the

DeepSee provides a noticeable practical benefit over the MaiTai without

it?



Any comments welcome and please feel free to contact me offline at

[hidden email]



Thank you!



Sincerely,



Michael C.



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by any virus transmitted by this email.

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Whoops, my last message wasn't supposed to go to everyone.  Haven't done that in years...

Thanks to everyone responding to my questions and extending this into a discussion.  The responses are extremely helpful.

Sincerely,

Michael

_________________________________________
Michael Cammer, Assistant Research Scientist
Skirball Institute of Biomolecular Medicine
Lab: (212) 263-3208  Cell: (914) 309-3270

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Hello list

I have been following the above thread and I think I do now understand the issues with pre-chirping.  

MaiTai sells 2 DeepSee models the eHP and the HP.  The first with a 70fs pulse whereas the second with a 100fs pulse.

Their difference in price is extremely small (I think is about 5K Euros).  
Does anyone want to comment whether the first has a significant advantage over the other?
Will I even be able to use the extra power of the eHP?
In terms of tissue penetration, with such a small difference in pulse width, will I see better performance with the  70fs?

Thank you all in advance




*********************************
Stamatis Pagakis Ph.D.
Biological Imaging Unit
Biomedical Research Foundation, Academy of Athens
Soranou Efessiou 4, Athens 115 27 - Greece
M:     +306946644955                
W:     +302106597481
FAX: +302106597545
http://www.bioacademy.gr/Faculty/core.php?cr=17

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We have done some research on this in our lab.  We have an old Tsunami with
minimum pulse time of 60 fs @ 850nm.  The beauty of the Tsunami is you can
adjust the width of the pulse spectrum from anywhere within the range of
18nm to 10nm.  This means (with the appropriate pulse compressor) I can
create transform-limited pulses of anywhere from 60 to 100fs approximately.
 If I am willing to allow the pulse to chirp, the compressor I have allows
up to ~1ps pulses as well, although these are not transform-limited.
We image live tissue sections which are being perfused, under an upright
microscope.  There is a lot of oxygen present because of the perfusion.  We
found that if we put ~60fs pulses at the sample the sample dies/breaks down
very quickly.  We suspect this is due to singlet oxygen production.  Fixed
samples do not break down as quickly if they have been treated with an
oxygen scrubber (prolong gold, etc) which is what leads us to believe it is
the oxygen.  If we use 100 fs xfrm limited pulses we get a bit less damage
while still getting reasonable signal, but we finally found that the
sweet-spot for us was about 200fs slightly chirped.  We got decent signal
without harming the tissue over the time scales we ran our experiments.  For
samples with more or less oxygen present I suspect you could alter the
pulse-width accordingly.  Keep in mind that as long as you have a compressor
you can modify your pulse width to whatever you want, down to the minimum
the bandwidth of the laser allows.  Finally, the larger the bandwidth of the
laser, the more sensitive it is to dispersion effects.  So in this case, the
70fs laser mentioned will be more responsive to small compressor adjustments
than the 100fs laser.  I have a paper detailing all this that made the
rounds amongst the forum goers a few months ago.  Email me privately if you
are interested.

Craig


On Wed, Dec 1, 2010 at 4:45 AM, Stamatis Pagakis <[hidden email]>wrote: