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d2:spectroscopy_module_210 [2017/10/11 17:51]
Michael Radunsky [Inputs, Outputs, and Controls]
d2:spectroscopy_module_210 [2020/03/16 15:17]
Michael Radunsky [Theory of Operation]
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   * D2-210 Spectroscopy Module   * D2-210 Spectroscopy Module
   * VPN00463 SMA cable (6ft)   * VPN00463 SMA cable (6ft)
-Also look for: 
   * VPN00410 Hirose-to-D Sub 9-pin (shipped under separate line item; specify for use with D2)   * VPN00410 Hirose-to-D Sub 9-pin (shipped under separate line item; specify for use with D2)
   * VPN00475 Hirose-to-Hirose power cord (shipped under separate line item; specify for use with ICE)   * VPN00475 Hirose-to-Hirose power cord (shipped under separate line item; specify for use with ICE)
 +  * VPN00367 Adjustment tool
  
  
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 =====Specifications===== =====Specifications=====
 <WRAP center round box 500px><tabcaption specs> <WRAP center round box 500px><tabcaption specs>
-^ ^  Value  ^  Units  +                                   ^  Value          ^  Units   
-^**Input Light Level**  |  2< P <1000  |  mW  +^ **Input Light Level**              |  2< P <1000     |  mW      
-^**Photodiode Amplifier**        +^ **Photodiode Amplifier**                                    
-<html> &nbsp;&nbsp; </html>  Transimpedance (signal) |  40,000  |  Ω  +| Transimpedance (signal)            |  40,000         |  Ω       
-<html> &nbsp;&nbsp; </html>Bandwidth (signal) |  5  |  MHz  +| Bandwidth (signal)                 |  5              |  MHz     
-<html> &nbsp;&nbsp; </html>Noise @ 5 MHz  |  <80  |  nV / <HTML> <span style="text-decoration: overline;">Hz</span></HTML> +| Noise @ 5 MHz                      |  <80            |  nV /√Hz | 
-^Set Temperature  |  ~25 to 65  |  °C  +^ Set Temperature                    |  ~25 to 65      |  °C      
-^Temperature Stability|  <0.1  |  °C  +^ Temperature Stability              |  <0.1           |  °C      
-^Beam Height|  0.95  |  inches +^ Beam Height                        |  0.95           |  inches 
-^Total package Size \\ (L x W x H)|  3.6 x 5 x 1.7  |  inches  |+^ Total package Size \\ (L x W x H)  |  3.6 x 5 x 1.7  |  inches  |
 </tabcaption> </tabcaption>
 </WRAP> </WRAP>
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 The remaining portion is passed through a fixed λ/2 waveplate and PBS to split off the pump beam from the probe beam.  The pump beam is directed to the Output Optics assembly where it is combined with the probe beam on a PBS in a counter-propagating configuration. The pump beam is dumped through the reflection port of the PBS that separated the pump and probe and terminates on the wall of the housing.  The probe is detected on the signal photodiode. The remaining portion is passed through a fixed λ/2 waveplate and PBS to split off the pump beam from the probe beam.  The pump beam is directed to the Output Optics assembly where it is combined with the probe beam on a PBS in a counter-propagating configuration. The pump beam is dumped through the reflection port of the PBS that separated the pump and probe and terminates on the wall of the housing.  The probe is detected on the signal photodiode.
  
-The beam diameters were designed to provide enough photocurrent (~50-100μA) to give shot-noise-limited performance out to 5 MHz while limiting saturation broadening.  For Vescent's DBR lasers, the bandwidth is useful to provide for tight and stable locking by feedback to injection current.  +The beam diameters were designed to provide enough photocurrent (~50-100 μA) to give shot-noise-limited performance out to 5 MHz while limiting saturation broadening.  For Vescent's DBR lasers, the bandwidth is useful to provide for tight and stable locking by feedback to injection current.  
  
  
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 **Temperature Bias Adj.** **Temperature Bias Adj.**
  
-For the Doppler subtraction option this control enables the user to input a small temperature difference between the reference and signal vapor cells.  In the fully CCW position the signal vapor cell heater gets all the current.  In the full CW position the reference cell heater gets twice the current as the signal cell.  This adjustment can be used to place the optimum point for Doppler Subtraction closer to zero Volts.+[Note: this adjustment is only available on older D2-210 models.] For the Doppler subtraction option this control enables the user to input a small temperature difference between the reference and signal vapor cells.  In the fully CCW position the signal vapor cell heater gets all the current.  In the full CW position the reference cell heater gets twice the current as the signal cell.  This adjustment can be used to place the optimum point for Doppler Subtraction closer to zero Volts.
  
 This adjustment only has an effect with the -DS, Doppler Subtraction option. This adjustment only has an effect with the -DS, Doppler Subtraction option.
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-The following images are representative of spectroscopy for <sup>87</sup>Rb with and without Doppler subtraction.  Note that Doppler subtraction has a minimal effect on peak lock signal generated by dithering the laser (green traces).+The following images are representative of spectroscopy for <sup>87</sup>Rb with and without Doppler subtraction.  Note that Doppler subtraction (<imgref ds>has a minimal effect on peak lock signal generated by dithering the laser (green traces).
  
 +<imgcaption image1|Pin numbering on female Hirose 6-pin connector>{{  :d2:d2-160:hirose-connector.png?200  }}</imgcaption>
  
-{{ :d2:d2-210:sas.jpg?nolink |}} +<imgcaption no-ds|Non-Doppler subtracted side- and peak-lock spectra>{{ :d2:d2-210:sas.jpg?nolink |}}</imgcaption> 
-{{ :d2:d2-210:sas_w_ds.jpg?nolink |}}+<imgcaption ds|Doppler subtracted side- and peak-lock spectra>{{ :d2:d2-210:sas_w_ds.jpg?nolink |}}</imgcaption>
d2/spectroscopy_module_210.txt · Last modified: 2020/09/03 12:40 by Michael Radunsky