AMOS-Streak Camera: Difference between revisions

From IMT-Wiki
Jump to navigationJump to search
No edit summary
No edit summary
Line 24: Line 24:
The streak camera is a device to measure ultra-fast light phenomena and delivers intensity vs. time vs.
The streak camera is a device to measure ultra-fast light phenomena and delivers intensity vs. time vs.
wavelength information.
wavelength information.



Currently the setup in the lab can be used in two configurations:
Currently the setup in the lab can be used in two configurations:
Line 36: Line 35:


XXXX break this procedure into different parts. Here you have turning on the laser mixed in with setting up the streak camera. Break into sections. A) how to turn on laser A1) how to deliver beam to sample A2) how to deliver to sample through pulse picker. b) how to setup streak camera for synchroscan mode c) how to setup streak camera for single sweep and d) how to setup streak camera for single sweep gated mode.
XXXX break this procedure into different parts. Here you have turning on the laser mixed in with setting up the streak camera. Break into sections. A) how to turn on laser A1) how to deliver beam to sample A2) how to deliver to sample through pulse picker. b) how to setup streak camera for synchroscan mode c) how to setup streak camera for single sweep and d) how to setup streak camera for single sweep gated mode.

'''A. Turning the LASER ON'''

1.Turn ON the tablet for controlling the output of the CHAMELEON COMPACT OPO-VIS System with Idler. It has options for different types of output. eg:- TiSa output, SHG, OPO, SHG of OPO etc.

2.Ensure that the shutter is closed and the cooling units for the LASER are switched ON.

3.Turn the LASER key to ON position, and wait till the LASER ramps up enough power. Ideally at 800nm the power should be 4W. Set the required wavelength for the Ti:Sa LASER.


''A1. Delivering beam to the sample''

1.Mount the sample in the sample holder.



''A2. Delivering beam to sample through pulse picker''



'''B. Setting up the Streak Camera'''


1.Ensure there is enough water in the chiller. Turn on the chiller.
1.Ensure there is enough water in the chiller. Turn on the chiller.
First the mains, and then the button on the chiller. Make sure that the indicator displays green. XXX correct this XXXX
First the black switch, and then the button on the chiller. Make sure that the indicator displays the temperature in green colour. XXX correct this XXXX

2.Make sure that the slit before the streak camera is set to zero (fully closed). (add picture)

3.Switch on the computer.

4.Turn on the streak camera and also the software on the computer by Hamamatsu. In the software, open live video and click auto-scale. A green streak will be visible at the center, this is because the cooling is not yet turned ON in the software. Turn Cooling ON in the palette on the left and you can see the streak vanishing.

5.Depending on the configuration used, turn on the respective delay unit, pulse picker and make sure that they are properly connected and configured.The different modes are described below. XXXX describe these configurations and connections, add diagrams and pictures XXX

'''C. Synchroscan Mode'''


Turn OFF the lights in the lab as the streak camera measurements are sensitive




'''D. Single sweep Mode'''
2.Mount the sample in the sample holder.


3.Make sure that the slit before the streak camera is set to zero (fully closed). (add picture)
Turn OFF the lights in the lab as the streak camera measurements are sensitive


4.Depending on the configuration used, turn on the respective delay unit, pulse picker and make sure that they are properly connected and configured. XXXX describe these configurations and connections, add diagrams and pictures XXX


5.Switch on the computer.


'''E. Single Sweep Gated Mode'''
6.Turn on the streak camera and also the software on the computer by Hamamatsu. In the software, open live video and click auto-scale. A green streak will be visible at the center, this is because the cooling is not yet turned ON in the software. Turn Cooling ON in the palette on the left and you can see the streak vanishing.


7.Turn ON the tablet for controlling the output of the CHAMELEON COMPACT OPO-VIS System with Idler. It has options for different types of output. eg:- TiSa output, SHG, OPO, SHG of OPO etc.


Turn OFF the lights in the lab as the streak camera measurements are sensitive
8.Ensure that the shutter is closed and the cooling units for the LASER are switched ON. Turn the LASER key to ON position, and wait till the LASER ramps up enough power. Ideally at 800nm the power should be 4W. Set the required wavelength for the Ti:Sa LASER.


9.Set the frequency for the pulse picker if required.


10.Turn OFF the lights in the lab as the streak camera measurements are sensitive.


'''F. Measurement'''


13.Make sure the alignment is correct and that the correct filters are mounted so that only the light to be measured is entering the streak camera. XXX how? XXX some pictures
1.Make sure the alignment is correct and that the correct filters are mounted so that only the light to be measured is entering the streak camera. XXX how? XXX some pictures


14.Start opening up gap for the photocathode slowly by turning the attached micrometer screw. Make sure this is done very slowly and the gap should ideally not exceed 20mm.
2.Start opening up gap for the photocathode slowly by turning the attached micrometer screw. Make sure this is done very slowly and the gap should ideally not exceed 20mm.


15.You will be able to see a streak on the live video output. XXX add some screenshots XXX
3.You will be able to see a streak on the live video output. XXX add some screenshots XXX


16.Set the appropriate timescale, gain and delay(if required) in the control palette.
4.Set the appropriate timescale, gain and delay(if required) in the control palette.


17.In the software control palette, change the Streak Camera Mode from 'Focus' to 'Operate'. Click auto-scale in the live video window.
5.In the software control palette, change the Streak Camera Mode from 'Focus' to 'Operate'. Click auto-scale in the live video window.


18.Adjust the timescale, gain and photocathode opening for the optimal measurement.
6.Adjust the timescale, gain and photocathode opening for the optimal measurement.


19.Set the required integration time and save the image and data.
7.Set the required integration time and save the image and data.
In case the detected light is very weak, you will have to use photon counting mode and save the image after setting a threshold value for detecting a hit per pixel.
In case the detected light is very weak, you will have to use photon counting mode and save the image after setting a threshold value for detecting a hit per pixel.


Revision as of 16:18, 2 June 2016

250px|thumb|right|<Bildunterschrift>

The purpose of these instructions is to give you a quick overview on how to work with the devices. You should still be familiar with the manual and receive a proper introduction from the lab leader or the principal users.

Device location: Optiklabor F&E4-3GP

Lab location: Building 310 Basement Room no. 054

Phone number: N.A.

Lab leader: Prof. Bryce Richards, Ian Howard

Principal users: Andrey Turshatov, Dmitry Busko, Michael Adams, Michael Oldenburg, Vu-Hong Le, Nicolo Baroni

Access: The setup is in a class IV laser lab. Only trained users with key may use the setup. The Lab is located in the basement of building 310. Open the door of the basement of B310, go straight ahead and open another door. The new LASER Lab can be found on your left side.

Short Description

The streak camera is a device to measure ultra-fast light phenomena and delivers intensity vs. time vs. wavelength information.

Currently the setup in the lab can be used in two configurations:

a) synchroscan (< 5 ns)

b) single sweep unit

Start-up Procedure and Measurement

XXXX break this procedure into different parts. Here you have turning on the laser mixed in with setting up the streak camera. Break into sections. A) how to turn on laser A1) how to deliver beam to sample A2) how to deliver to sample through pulse picker. b) how to setup streak camera for synchroscan mode c) how to setup streak camera for single sweep and d) how to setup streak camera for single sweep gated mode.

A. Turning the LASER ON

1.Turn ON the tablet for controlling the output of the CHAMELEON COMPACT OPO-VIS System with Idler. It has options for different types of output. eg:- TiSa output, SHG, OPO, SHG of OPO etc.

2.Ensure that the shutter is closed and the cooling units for the LASER are switched ON.

3.Turn the LASER key to ON position, and wait till the LASER ramps up enough power. Ideally at 800nm the power should be 4W. Set the required wavelength for the Ti:Sa LASER.


A1. Delivering beam to the sample

1.Mount the sample in the sample holder.


A2. Delivering beam to sample through pulse picker


B. Setting up the Streak Camera

1.Ensure there is enough water in the chiller. Turn on the chiller. First the black switch, and then the button on the chiller. Make sure that the indicator displays the temperature in green colour. XXX correct this XXXX

2.Make sure that the slit before the streak camera is set to zero (fully closed). (add picture)

3.Switch on the computer.

4.Turn on the streak camera and also the software on the computer by Hamamatsu. In the software, open live video and click auto-scale. A green streak will be visible at the center, this is because the cooling is not yet turned ON in the software. Turn Cooling ON in the palette on the left and you can see the streak vanishing.

5.Depending on the configuration used, turn on the respective delay unit, pulse picker and make sure that they are properly connected and configured.The different modes are described below. XXXX describe these configurations and connections, add diagrams and pictures XXX

C. Synchroscan Mode


Turn OFF the lights in the lab as the streak camera measurements are sensitive


D. Single sweep Mode

Turn OFF the lights in the lab as the streak camera measurements are sensitive


E. Single Sweep Gated Mode


Turn OFF the lights in the lab as the streak camera measurements are sensitive


F. Measurement

1.Make sure the alignment is correct and that the correct filters are mounted so that only the light to be measured is entering the streak camera. XXX how? XXX some pictures

2.Start opening up gap for the photocathode slowly by turning the attached micrometer screw. Make sure this is done very slowly and the gap should ideally not exceed 20mm.

3.You will be able to see a streak on the live video output. XXX add some screenshots XXX

4.Set the appropriate timescale, gain and delay(if required) in the control palette.

5.In the software control palette, change the Streak Camera Mode from 'Focus' to 'Operate'. Click auto-scale in the live video window.

6.Adjust the timescale, gain and photocathode opening for the optimal measurement.

7.Set the required integration time and save the image and data. In case the detected light is very weak, you will have to use photon counting mode and save the image after setting a threshold value for detecting a hit per pixel.


Shutdown Procedure

1.Make sure you have saved all the data required.

2.Close the photocathode opening.

3.Turn OFF the software and the streak camera.

4.Turn ON the lights

5.Turn OFF the output of the CHAMELEON COMPACT OPO-VIS using the tablet.

6.Turn the shutter OFF.

7.Turn Ti:Sa LASER key to Standby.

8.Turn OFF the delay generator and pulse picker(if used)

9.Turn OFF the computer and chiller.



Kategorie:Geräte - Devices Kategorie:Prüfmittel - Measuring Equipment Kategorie:F&E4

Retrieved from "https://www.imt.kit.edu/wiki/index.php?title=AMOS-Streak_Camera&oldid=4245"