Running the application » History » Version 21
Anchi Cheng, 07/15/2010 10:31 PM
| 1 | 1 | Amber Herold | h1. Running the application |
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| 5 | h2. Import Notes about Image Intensity Recorded through |
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| 6 | Tomography Node |
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| 10 | 14 | Amber Herold | Tomography node saves the images in a different format from other Acquisition nodes. By |
| 11 | 1 | Amber Herold | default, the flat-field correct CCD counts are multiplied by 10 and converted to signed |
| 12 | 16-bit integer before the image is displayed and saved. This makes CCD counts of 3276.8 or |
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| 13 | larger overflow to negatives. Other Leginon Acquisition images are saved as float without |
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| 14 | manipulation. |
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| 17 | To avoid this problem, find out what exposure time corresponds to the fractionated dose |
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| 18 | from your tilt angle step and range and total dose and take an image at tomo preset with |
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| 19 | such an exposure in Navigation node. You will need to reduce the total dose if a good |
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| 20 | fraction of the counts are larger than 3200 even though it would not appear to be saturated |
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| 21 | in the float scale without the 10x factor. Alternatively, change the scale factor in |
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| 22 | Tomography node. |
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| 28 | h2. Multiscale Imaging |
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| 32 | * Preset image shift alignment/beam shift alignment are the same as in MSI |
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| 33 | application |
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| 36 | 5 | Amber Herold | * New dark/bright references should be reacquired for "tomo" preset that acquires the |
| 37 | 1 | Amber Herold | final data. It is best to do this at the same dose per tomography image calculated from |
| 38 | the total dose, the tilt parameters, and the dose measurement. |
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| 41 | * For best focusing result, perform autofocus at the same magnification as the |
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| 42 | tomography data collection, align microscope well at the eucentric focus and the |
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| 43 | rotation center and save them before data collection. |
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| 51 | h2. Using Tomography Preview |
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| 55 | * Preview targets (pink) can be selected when selecting targets in "Tomography |
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| 56 | Targeting" |
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| 59 | * When the targets are processed, targets that are of the type "preview" are |
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| 60 | processed before focus and acquisition targets. |
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| 63 | * Tomography Preview node acquires a image at the preview target using "preview" |
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| 64 | preset which should be set at minimal dose. |
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| 72 | h2. Dose Measurement |
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| 76 | If "Measure Dose before collection" is checked in Tomography node, the stage will be |
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| 77 | moved to the reference target and a dose image of the "tomo" preset will be acquired (center |
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| 78 | 512x512 of whateven binning of the preset) before each tilt series if the interval between |
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| 79 | the series is longer than the limit time set in the settings of Dose Measurement node. The |
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| 80 | measured value will then be used to recalculate the proper exposure time for tomography |
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| 81 | imaging. |
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| 84 | For this function to behave properly, the followings should be done during |
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| 85 | operation: |
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| 88 | * One, and only one, "reference" target should be selected in either "Square |
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| 89 | Targeting" or "Hole Targeting" or "Tomography Targeting" node. The reference target |
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| 90 | should be of either a broken square or a empty hole if no broken square can be |
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| 91 | found. |
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| 94 | * "Measure Dose" before collection should be selected in Tomography node. |
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| 97 | * "Exposure time max/min" in Tomography node should be in a range that can accommodate |
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| 98 | the electron beam fluctuation over time. |
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| 106 | h2. Align Zero Loss Peak |
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| 110 | This function applies only to Gatan energy filter EFTEM. If "Align ZLP before |
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| 111 | collection" is checked in Tomography node, the stage will be moved to the reference target |
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| 112 | and starts the procedure to align zero loss peak before each tilt series if the interval |
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| 113 | between the series is longer than the limit time set in the settings of Dose Measurement |
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| 114 | node. |
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| 116 | |||
| 117 | For this function to behave properly, the followings should be done during |
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| 118 | operation: |
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| 120 | |||
| 121 | * One, and only one, "reference" target should be selected in either "Square |
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| 122 | Targeting" or "Hole Targeting" or "Tomography Targeting" node. The reference target |
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| 123 | should be of either a broken square or a empty hole if no broken square can be found. |
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| 124 | This is the same reference target used for dose measurement. |
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| 127 | * "Align ZLP" before collection should be selected in Tomography node. |
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| 140 | h2. What is a Good Tilt-Axis Model? |
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| 144 | 5 | Amber Herold | The goniometer-tilt-axis-based tracking model developed by Zheng et. al. corrects the |
| 145 | specimen height (z-axis) by a change of defocus using measured shift of feature shifts in |
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| 146 | 1 | Amber Herold | the images (x and y-axes). The tracking in the x and y directions does not involve the use |
| 147 | 5 | Amber Herold | of such model, but is done by smooth curve fitting or preceding tilts. Therefore, to judge |
| 148 | 1 | Amber Herold | the adequacy of the model, one should check the resulting defocii of the images in the |
| 149 | series remain unchanged. |
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| 152 | On the other hand, the feature tracking in x and y is likely to fail only if the tilting |
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| 153 | does not induce a smooth shift of the imaging feature a sudden drop of specimen position at |
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| 154 | a particular tilt angle often throws off the smooth curve fitting. It is possible to reduce |
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| 155 | such effect by increasing the number of data points included in the smoothing as set in the |
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| 156 | model section of the tomography node settings window. Otherwise, the goniometer need to be |
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| 157 | serviced. |
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| 159 | 19 | Anchi Cheng | [[Troubles with Tomography|Tomography Trouble Shooting]] section covers many of the problems we have encountered. |
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| 167 | ______ |
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| 169 | 21 | Anchi Cheng | [[Set-up Before Running|< Set-up Before Running]] | [[Reading the tomography graphs| Reading the tomography graphs >]] |