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4 Jun 2008Paul Dauncey1 Crosstalk and laser results Paul Dauncey, Anne-Marie Magnan, Matt Noy.

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Presentation on theme: "4 Jun 2008Paul Dauncey1 Crosstalk and laser results Paul Dauncey, Anne-Marie Magnan, Matt Noy."— Presentation transcript:

1 4 Jun 2008Paul Dauncey1 Crosstalk and laser results Paul Dauncey, Anne-Marie Magnan, Matt Noy

2 4 Jun 2008Paul Dauncey 2 Trying to find a repeatable pattern… Study Sensor #1, pixel 61, 28; mask quads 1-3, 10 bunch crossings/bunch train Crosstalk Column 61 unmasked Columns 61-65 unmasked Columns 61-66 unmasked Column 61 unmasked Columns 57-61 unmasked Columns 56-61 unmasked

3 4 Jun 2008Paul Dauncey 3 Check if in analogue or digital part of circuit Move pixel 63,129 up by trim=10 to move away from other pedestals Crosstalk source Effect is not quite a step function Pedestal position and width are unaffected by extra noise from other pixels Crosstalk appears not to affect analogue circuit Trim=0 Column 63 unmasked Trim=10 Columns 63-66 unmasked Trim=10 Column 63 unmasked Trim=10 Columns 63-67 unmasked

4 4 Jun 2008Paul Dauncey 4 Can measure pedestal peak accurately with short bunch trains Scan trim setting and measure pedestal position for single channel Pixel 61, 28 Trim units 1 trim unit ~ 6TU 1 trim unit ~ 15TU

5 4 Jun 2008Paul Dauncey 5 Easy to focus optically on substrate surface, but… Epitaxial layer ~300  m below this Laser wavelength will have different focal point Laser focus Focus on substrate and adjust by focus dial gradations We think these are in units of  m Positive value moves focus down towards epitaxial layer Measure laser signal above pedestal at each setting Work with +60  m

6 4 Jun 2008Paul Dauncey 6 Unmask 3x3 array of pixels in bulk Take a threshold scan with laser disabled Take threshold scans at each of the 21 “Giulio” simulation points Use upper edge of threshold scan to define signal Analogue measurement of signal size in 3x3 array Charge sharing Pixel centre Pixel corner 5m5m

7 4 Jun 2008Paul Dauncey 7 Pedestals Laser disabled

8 4 Jun 2008Paul Dauncey 8 Laser signals Laser in corner of four pixels = point 20

9 4 Jun 2008Paul Dauncey 9 Fitting for upper edge Laser in corner of four pixels = point 20 Count events with hit, not number of hits Fit to rising and falling erfs

10 4 Jun 2008Paul Dauncey 10 Expected total sum of signal Diode

11 4 Jun 2008Paul Dauncey 11 Measured total sum of signal With deep p-well Without deep p-well Total simulation signal ~ 1300e − Guess “total” signal ~ 530TU

12 4 Jun 2008Paul Dauncey 12 Deep p-well signal per pixel Giulio simulation Data Cell numbering

13 4 Jun 2008Paul Dauncey 13 Non-deep p-well signal per pixel Giulio simulation Data Cell numbering

14 4 Jun 2008Paul Dauncey 14 Non-deep p-well signal per pixel (cont) Diffusion simulation Data Cell numbering

15 4 Jun 2008Paul Dauncey 15 Crosstalk is pickup from other pixels firing Seems to be quite pixel dependent No obvious pattern seen yet No effect on analogue circuit performance Trim is not exactly linear Trim unit in TU depends on trim setting Laser focus makes a big difference to signal size Charge spread can be measured in the bulk The spread is qualitatively similar to the simulation… …but does not agree quantitatively Must check laser uniformity in time and alignment Not yet at precision level Conclusions

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