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1. box I have spoken to Cathy Boutin at CR1 Inc who has stated that for our experiments with PDMS microchannels it is best NOT to use the witness box since we are unable to position it in a region of the image where there is no flow induced stressed Not using a witness box has the drawback that once a background image is taken it is only relevant to the region of the sample for which it was taken thus it is only truly applicable as long as the sample is not moved The exposure time of an image can be found by double clicking on an image and looking under the Image Notes tab of the display panel in the lower left hand corner of the user interface The exposure time is influenced by the settings in the preferences window for image taking To get a plot of retardance and azimuthal angle along a line in the image use the line tool and draw a line on the image then select the Measurements tab on the display panel and select Profile Plot on the drop down menu All of this is outlined on page 57 of the User s Manual for ABRIO 1 4 To export these profiles into spreadsheet format right click on the plots and select Copy Open Excel and paste the data If ABRIO crashes do not worry Both the most recent background that you took and all of your images are saved for your user session Note Any unsaved changes to images are however lost Cleaning and maintenance The ABRIO setup itself requires fairly little upkeep If you2. turret using the knob on the other side of the microscope stage Take note of the position number in which there is no filter Once you have found this number replace the cover and rotate the turret so that the position number that you noted is now showing on the knob on the other side of the microscope stage Position Number 3 Turn on the microscope light by toggling the switch on the remote controller box and the switch at the bottom left of the microscope Adjust the light intensity as desired using the knob just below the light switch on the bottom left of the microscope Nikon ower 4 Select Port 1 using the knob at the bottom right of the microscope Ar _ ore T P be j Grid Toggle J 5 Place the birefringent sample on the microscope stage and focus on the sample at whatever your desired magnification It is generally easiest to use a lower objective first for focusing on a sample and then progressively increasing the magnification If there 1s a grid in the field of view it can be removed by turning the black knob in the lower front of the microscope 6 In this step we Koehler Illumination The procedure for this step is well described on page 37 of the User s Manual for ABRIO 1 4 The following is taken verbatim from that manual Close the condenser diaphragm lever on the pillar so that the edges of the diaphragm begin to form a polygon shape within your field of view Adj
3. you still desire the background be taken through a nominally non birefringent medium e g air after having successfully taken the background through the birefringent medium remove it from the microscope stage and have ABRIO take a new background This technique is a round about method but it has worked more than once If you have tried in vain to get ABRIO to take a background consider quitting the program turning the camera off and then on again reopening ABRIO and trying again We are using the Abrio camera not the Cooled Abrio camera Make sure you have selected Abrio camera in the preferences window The measured azimuthal angle also extinction angle is the angle between the slow axis the optical axis of the sample having the larger index of refraction of the birefringent sample and the horizontal positive x axis of the image displayed in the ABRIO software In other words ABRIO can measure both the magnitude and the sign of An Thus ABRIO will differentiate between two materials one with a positive stress optical coefficient and the other with a negative stress optical coefficient each with identical stress distributions by measuring an azimuthal angle for one of the materials that differs from the azimuthal angle of the other material by 90 For this reason it is very important that the ABRIO camera be level With respect to the user the orientation of an image displayed by the ABRIO software shoul
4. Procedure for using ABRIO CR Inc Imaging Equipment Compiled by Thomas Ober Dec 2008 The following procedure assumes that the ABRIO camera has been properly installed in Port 5 of the microscope and is connected to a PC on which the ABRIO software has already been installed For instructions regarding proper installation of the camera refer to the ABRIO user manual This procedure has been designed to guide the user up until the point where he or she is ready to use the software It is my observation that the equivalent procedure provided by CRI Inc is wanting in some areas because it was designed to be broadly applicable for many different microscopes and consequently it misses some of the subtleties pertinent to our setup Required equipment ABRIO Camera Nikon TE 2000U Inverted Microscope Birefringent sample Procedure 1 Turn on computer and select Birefringence PC on the data transfer switch to have the monitor display the output of the a connected to the ABRIO camera 2 Select the correct filters None of the filters located at the top of the microscope should be engaged 1 e all of the filter panels should be in their most outward position On the condenser turret filter A should be selected with its aperture fully open Filter A Check that there are no other filters in the light path below the objectives To do this remove the cover with the Warning label on it and rotate the filter
5. d be the same as the orientation of the sample that the user would observe if he or she were to look at the sample through the microscope ABRIO requires a reference background image to account for residual birefringence in the sample There are two ways to accomplish this 1 Static take an image of the sample in this case of the PDMS before an experiment and apply this reference image to all subsequent images 2 Dynamic use a witness box to designate a small region of the live image as the continuously updated background The use and position of the witness box greatly influences the measured signal especially for samples which are roughly as birefringent as their background Generally the closer the witness box 1s positioned to the channel the more reduced the measured retardance when there is flow This occurs because the PDMS walls are themselves deformed by the flowing liquid presumably more so closer to the channel The ABRIO software accounts for this by thinking the increased birefringence in the PDMS 1s an increase in the background birefringence and then subtracts this increased birefringence from the whole image Shribak 2003 If no witness box is used the background image taken originally is applied to the image at all times If this background image is taken when there is no flow in the sample i e minimal stress then the measured birefringence when there is flow is higher than the birefringence measured using a witness
6. desire to remove any dust from the optics do so with a hand powered lens blower as shown below but NOT with compressed air Using compressed gas to clean the lens runs the risk that some of the aerosol will be ejected as liquid and land on the lens leaving a film on the lens References User s Manual for ABRIO 1 4 Shribak M and R Oldenbourg 2003 Techniques for fast and sensitive measurements of two dimensional birefringence distributions Applied Optics 42 16 3009 301 ABRIO Optical Train White Light Monochromatic n 5H Circular Polarizer Polarizer Interference O Filter Circularly Polarized Light Quarter Wave o S Plate 45 Sample d X Variable J Altered Light Retarder B O Liquid Crystal Compensator Optic Variable a Retarder A 45 Computer ABRIO Camera retardance nm x extinction angle
7. ords ABRIO Imaging System should be facing vertically as shown in the picture below For accurate measurements it is important that the camera be mounted so that it 1s level There is a bubble level available in the optical cabinet For more information see chapter 3 of User s Manual for ABRIO 1 4 2 Select Port 5 using the knob at the bottom right of the microscope 3 Plug in the camera and check that the green lights on the back of the camera are lit and are no longer blinking 4 Open the ABRIO software on the PC At this point it is best to refer to the User s Manual for ABRIO 1 4 and the Quick Start Guides as they offer a very thorough procedure for acquiring images and using the software Below is a list of what I think would be helpful to future users that is not explicitly stated in the User s Manual for ABRIO 1 4 Sometimes ABRIO has difficulty taking a background If you encounter this problem consider the following Generally the cause of its difficulty is indeed one of the problems that ABRIO mentions in the warning message Check to see that your problem is not in the warning message It is also possible that the connection to the camera has become stale or you simply forgot to turn on the camera It is possible to coax ABRIO into taking a background by placing something which is birefringent e g and empty PDMS channel in the whole field of view and then having it take a background If
8. ust the condenser height using the large black knob on the condenser assembly until the edges of the diaphragm are sharply in focus Center the diaphragm opening in your field of view using the two metal knobs on the condenser assembly Open the condenser diaphragm until the edges just disappear from you field of view Sharp amp Centered A In some cases you may find that the condenser turret is difficult to move or it will not move down far enough to get the polygon to have sharp edges If this happens loosen the locking wing screw just above the right hand condenser knob Loosening this screw will allow for more vertical movement of the condenser Be sure to tighten the locking screw once you have puu the condenser 7 Engage both the filter above the condenser assembly by moving the slider from left to right Engage the liquid crystal LC compensator below the microscope objectives by pushing it into the slot in the microscope below the objectives until the second of two clicks is heard The filter above the condenser assembly contains a monochromatic filter 546 nm and circular polarizer The LC compensator contains two variable retarders and the analyzer Filter Engaged LC Compensator LC Compensator Engaged At this point we are ready to use the camera and the software 1 Check the camera Make sure that it 1s connected to the PC and that it is securely mounted to the microscope The side of the camera with the w
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