howto:t3r_antibunching_-_slow_decay
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| howto:t3r_antibunching_-_slow_decay [2013/11/27 10:09] – admin | howto:t3r_antibunching_-_slow_decay [2015/06/03 15:06] – admin | ||
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| - detectors: perkin elmer SPCMAQR14 | - detectors: perkin elmer SPCMAQR14 | ||
| - | - 700 nm SP filter in front of one of the apds | + | - 700 nm SP filter in front of one of the APDs |
| - sample: diamond nanocrystals (100 nm), we are measuring the antibunching of the NV centers emission | - sample: diamond nanocrystals (100 nm), we are measuring the antibunching of the NV centers emission | ||
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| \\ ==== You will I need the raw data ==== | \\ ==== You will I need the raw data ==== | ||
| - | The timescale is in ns. The plateau is the dead-time. The decay slope depends on the count rate. | + | The timescale is in ns. The plateau is the [[glossary:dead time]]. The decay slope depends on the count rate. |
| - | You can zoom into your data and you will see roughly the same behavior - linear decay after the dead-time, which than of course is overshadowed by the background. | + | You can zoom into your data and you will see roughly the same behavior - linear decay after the [[glossary:dead time]], which than of course is overshadowed by the background. |
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| For a trial you will I need the raw data - a pt2 file containing all the photon data - not just the correlated curve. You can record this using the button I highlighted in the attached screenshot. | For a trial you will I need the raw data - a pt2 file containing all the photon data - not just the correlated curve. You can record this using the button I highlighted in the attached screenshot. | ||
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howto/t3r_antibunching_-_slow_decay.txt · Last modified: 2022/02/01 11:32 by peter