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zeiss_cell_observer_sd [2020/07/21 16:17]
bioimaging
zeiss_cell_observer_sd [2024/01/28 11:44] (current)
bioimaging [Cameras]
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-<a href="/​facility/​bioimaging/​lib/​exe/​fetch.php?​media=zeiss_cell_observer_sd_wiki_new.png"><​img src="/​facility/​bioimaging/​lib/​exe/​fetch.php?​media=zeiss_cell_observer_sd_wiki_new.png" width=300></​a>​+<a href="/​facility/​bioimaging/​lib/​exe/​fetch.php?​media=zeiss_cell_observer_sd_wiki_2022.png"><​img src="/​facility/​bioimaging/​lib/​exe/​fetch.php?​media=zeiss_cell_observer_sd_wiki_2022.png" width=300></​a>​
 <td style="​border:​0px solid white;">​ <p style="​line-height:​1.8">​ <td style="​border:​0px solid white;">​ <p style="​line-height:​1.8">​
 <​b>​Location</​b>:​ <a href="/​facility/​bioimaging/​lib/​exe/​fetch.php?​media=zeiss_cell_observer_sd_map_new.png">​Room P2-A-22</​a>​ (<img src="/​facility/​bioimaging/​lib/​exe/​fetch.php?​media=phone_neg.png"​ width=15>​ 47217) <​br>  ​ <​b>​Location</​b>:​ <a href="/​facility/​bioimaging/​lib/​exe/​fetch.php?​media=zeiss_cell_observer_sd_map_new.png">​Room P2-A-22</​a>​ (<img src="/​facility/​bioimaging/​lib/​exe/​fetch.php?​media=phone_neg.png"​ width=15>​ 47217) <​br>  ​
-<​b>​Manufacturer</​b>:​ <a href="​http://​www.zeiss.de/​micro"​ target="​_blank">​Carl Zeiss Microimaging</​a><​br>​+<​b>​Manufacturer</​b>:​ <a href="​http://​www.zeiss.de/​micro"​ target="​_blank">​ZEISS Microscopy</​a><​br>​
 <​b>​Model</​b>:​ Cell Observer SD<​br>​ <​b>​Model</​b>:​ Cell Observer SD<​br>​
 <​b>​Nickname</​b>:​ "Cell Observer SD"<​br>​ <​b>​Nickname</​b>:​ "Cell Observer SD"<​br>​
-<​b>​Software</​b>:​ ZEN<​br>​+<​b>​Software</​b>:​ ZEN 3.2 (blue edition)<br>
 <​b>​Year</​b>:​ 2015 <br> <​b>​Year</​b>:​ 2015 <br>
 <​b>​SN</​b>:​ 3851001637 <br> <​b>​SN</​b>:​ 3851001637 <br>
 +&nbsp <br>
 +Data will be deleted after: <b>1 month</​b>​
 &nbsp <br> &nbsp <br>
 &nbsp <br> &nbsp <br>
 &nbsp <br> &nbsp <br>
-&rarr; <a href="​https://​my.agendo.science/​calendar/?​id=MjVjYWxlbmRhcnM="><​img src="/​facility/​bioimaging/​lib/​exe/​fetch.php?​media=date.png"> ​ Zeiss Cell Observer SD Booking</​a>​ 
- <​br> ​ 
 &rarr; <a href="/​facility/​bioimaging/​doku.php?​id=zeiss_cell_observer_sd_quality"><​img src="/​facility/​bioimaging/​lib/​exe/​fetch.php?​media=list-icon.png"​ width=18>​ Zeiss Cell Observer SD Quality Control</​a>​ &rarr; <a href="/​facility/​bioimaging/​doku.php?​id=zeiss_cell_observer_sd_quality"><​img src="/​facility/​bioimaging/​lib/​exe/​fetch.php?​media=list-icon.png"​ width=18>​ Zeiss Cell Observer SD Quality Control</​a>​
  <​br>​  <​br>​
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 ===== System overview ===== ===== System overview =====
  
-{{  :spinning_disk.png|}} The Zeiss Cell Observer SD //spinning disk confocal microscope//​ is a fast imaging system which provides a trade-off between confocality,​ resolution and speed. It is an inverted microscope ideal for live cell applications which require fast acquisition speeds rather than high resolution images. The scanning unit achieves confocality by directing light through a spinning disk with many small pinholes. Images are then acquired with a sensitive EMCCD which allows for very small exposure times but is limited in resolution to 512x512 pixels. The stage is motorized and furthermore equipped with a piezo for Z displacement so fast 4D imaging is possible in multiple stage positions. The system is also equipped with a large size incubator for temperature control, a small stage incubator for CO2 supply and with Definite Focus.2 for hardware focus control during large tile or multi-position/​time-lapse acquisitions (check tutorial videos below). You can also use the system as a widefield microscope, using a sCMOS camera for acquisition. Even though its resolution is not as high as a //​point-scanning confocal system// such as the [[zeiss_lsm_710|Zeiss LSM 710]], it is much faster. You can also check the [[3i_marianas_sdc|3i Marianas SDC]] if you need a spinning disk with higher laser power illumination. If your personal computer cannot handle all the data you collected, check out the [[big_guy|Big Guy]] or [[colossus|Colossus]].+{{  :yokogawa_sd.png?350|}} The Zeiss Cell Observer SD //spinning disk confocal microscope//​ is a fast imaging system which provides a trade-off between confocality,​ resolution and speed. It is an inverted microscope ideal for live cell applications which require fast acquisition speeds rather than high resolution images. The scanning unit achieves confocality by directing light through a spinning disk with many small pinholes. Images are then acquired with a sensitive EMCCD which allows for very small exposure times but is limited in resolution to 512x512 pixels. The stage is motorized and furthermore equipped with a piezo for Z displacement so fast 4D imaging is possible in multiple stage positions. The system is also equipped with a large size incubator for temperature control, a stage top incubator for CO2 supply and with Definite Focus.2 for hardware focus control during large tile or multi-position/​time-lapse acquisitions (check tutorial videos below). You can also use the system as a widefield microscope, using fast-swicthing LEDs for illumination (Zeiss Colibri.2) and a sCMOS camera for acquisition.
  
   * **Microscope**:​ [[http://​www.zeiss.com/​microscopy/​en_de/​products/​light-microscopes/​axio-observer-for-biology.html|Zeiss Axio Observer]]   * **Microscope**:​ [[http://​www.zeiss.com/​microscopy/​en_de/​products/​light-microscopes/​axio-observer-for-biology.html|Zeiss Axio Observer]]
-  * **Confocal scanner**: [[https://​www.yokogawa.com/​eu/​solutions/​products-platforms/​life-science/​spinning-disk-confocal/​csu-x1-confocal-scanner-unit/​|Yokogawa CSU-x1]]+  * **Confocal scanner**: [[https://​www.yokogawa.com/​eu/​solutions/​products-and-services/​life-science/​spinning-disk-confocal/​csu-x1-confocal-scanner-unit//|Yokogawa CSU-X1]]
   * **EMCCD Camera**: [[https://​www.photometrics.com/​wp-content/​uploads/​2019/​10/​Evolve512-Datasheet.pdf|Evolve 512 EMCCD]]   * **EMCCD Camera**: [[https://​www.photometrics.com/​wp-content/​uploads/​2019/​10/​Evolve512-Datasheet.pdf|Evolve 512 EMCCD]]
-  * **sCMOS Camera**: [[https://​www.hamamatsu.com/​resources/pdf/sys/SCAS0081E_C11440-22CU.pdf|Hamamatsu ORCA-flash4.0 V2]] +  * **sCMOS Camera**: [[https://​www.hamamatsu.com/​content/dam/​hamamatsu-photonics/​sites/​documents/​99_SALES_LIBRARY/sys/SCAS0156E_HCImage-Flash4.0V2.pdf|Hamamatsu ORCA-flash4.0 V2]] 
-  * [[https://​www.zeiss.com/​microscopy/​int/​products/​light-microscopes/​axio-observer-for-biology/​definite-focus.html|Definite Focus.2]]+  * Definite Focus.2
     * | [[https://​www.youtube.com/​watch?​v=Che0bouWcVE|Introduction to Definite Focus.2]]     * | [[https://​www.youtube.com/​watch?​v=Che0bouWcVE|Introduction to Definite Focus.2]]
     * | [[https://​www.youtube.com/​watch?​v=I_c3SAHF984|Perform Large Tile Experiments with Definite Focus.2]]     * | [[https://​www.youtube.com/​watch?​v=I_c3SAHF984|Perform Large Tile Experiments with Definite Focus.2]]
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 {{:​warning.png?​25|}} Data files older than **1 month** will be automatically deleted on this system, please copy your data to the iMM server using the desktop link. {{:​warning.png?​25|}} Data files older than **1 month** will be automatically deleted on this system, please copy your data to the iMM server using the desktop link.
  
 +===== Booking Rules =====
 +  - **Users** can book at maximum **8 hours per week**
 +  - This usage restriction does not apply for **weekends** and for working days **before 9:00** and **after 21:00**
 +  - Exceptions to these rules require **approval from [[joserino@medicina.ulisboa.pt|José Rino]]**.
 + 
 ===== System components ===== ===== System components =====
- 
-==== LASERs ==== 
-^  Laser Unit  ^  Wavelength ​ ^  Maximum Power  ^  Current Status ​ ^ 
-|  Solid State Laser 405  |  405 nm  |  50 mW  |  ok  | 
-|  Solid State Laser 488  |  488 nm  |  100 mW  |  ok  | 
-|  Solid State Laser 561  |  561 nm  |  75 mW  |  ok  | 
-|  Solid State Laser 638  |  638 nm  |  75 mW  |  ok  | 
  
 ==== Objectives ==== ==== Objectives ====
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 |  10x  |  EC Plan-Neofluar ​ |  Air  |  0.30  |  5.20  |  [[https://​www.micro-shop.zeiss.com/​en/​de/​shop/​objectives/​420340-9901-000/​Objective-EC-Plan-Neofluar-10x-0.30-M27|420340-9901-000]] ​ | |  10x  |  EC Plan-Neofluar ​ |  Air  |  0.30  |  5.20  |  [[https://​www.micro-shop.zeiss.com/​en/​de/​shop/​objectives/​420340-9901-000/​Objective-EC-Plan-Neofluar-10x-0.30-M27|420340-9901-000]] ​ |
 |  25x  |  LCI Plan-Neofluar Corr DIC  |  Oil/​Glyc/​W ​ |  0.80  |  0.21  |  [[https://​www.micro-shop.zeiss.com/​en/​de/​shop/​objectives/​420852-9972-000/​Objective-LCI-Plan-Neofluar-25x-0.8-Imm-Corr-DIC-M27|420852-9972-000]] ​ | |  25x  |  LCI Plan-Neofluar Corr DIC  |  Oil/​Glyc/​W ​ |  0.80  |  0.21  |  [[https://​www.micro-shop.zeiss.com/​en/​de/​shop/​objectives/​420852-9972-000/​Objective-LCI-Plan-Neofluar-25x-0.8-Imm-Corr-DIC-M27|420852-9972-000]] ​ |
-|  ​63x  ​|  ​Plan-Apochromat Ph3  ​|  ​Oil  ​|  ​1.40  ​|  ​0.19  ​|  ​[[https://www.micro-shop.zeiss.com/​en/​de/​shop/​objectives/​420781-9910-000/​Objective-Plan-Apochromat-63-1.4-Oil-Ph3-M27|420781-9910-000]] ​ |+ 
 +==== LASERs (Confocal) ==== 
 +^  Laser Unit  ^  Wavelength ​ ^  Maximum Power  ^ 
 +|  ​Solid State Laser 405  ​|  ​405 nm  ​|  ​50 mW  
 +|  ​Solid State Laser 488  ​|  ​488 nm  ​|  ​100 mW  | 
 +|  Solid State Laser 561  |  561 nm  |  75 mW  | 
 +|  Solid State Laser 638  |  638 nm  |  75 mW  | 
 + 
 +==== Emission Filters (Confocal) ==== 
 + 
 +^  Position ​ ^  Transmission ​ ^ 
 +|  1BP 450/50  |  425-475 nm  | 
 +|  2: TBP 526 601 688  |  510-542 nm  | 
 +|  :::  |  586-616 nm  |   
 +|  :::  |  663-713 nm  | 
 +|  3: none  |  | 
 +|  ​4: FE01-520/​35 ​ |  502-537 nm  | 
 +|  5: BP 600 50  |  575-625 nm  ​| 
 +|  6: BP 690/​50 ​ |  665-715 nm  | 
 + 
 +==== LEDs (Widefield) ​ ==== 
 +^  Line  ^  Wavelength ​ ^ 
 +|  UV  |  365 nm  | 
 +|  B  |  470 nm  | 
 +|  G  |  565 nm  | 
 +|  R  |  625 nm  |
  
 ==== Filtersets (Widefield) ==== ==== Filtersets (Widefield) ====
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 |  :::  |  :::  |  :::  |  620-642 nm  |  650 nm  |  658-704 nm  | |  :::  |  :::  |  :::  |  620-642 nm  |  650 nm  |  658-704 nm  |
 |  6  |  Empty  ||||| |  6  |  Empty  |||||
-==== Emission Filters (Confocal) ==== 
  
-^  Position ​ ^  Transmission ​ ^ 
-|  1: BP 450/​50 ​ |  425-475 nm  | 
-|  2: TBP 526 601 688  |  510-542 nm  | 
-|  :::  |  586-616 nm  |  ​ 
-|  :::  |  663-713 nm  | 
-|  3: none  |  | 
-|  4: FE01-520/​35 ​ |  502-537 nm  | 
-|  5: BP 600 50  |  575-625 nm  | 
-|  6: BP 690/​50 ​ |  665-715 nm  | 
  
 ==== Cameras ==== ==== Cameras ====
-^  Model  ^  Type  ^  Frame Size  ^  Pixel Size (µm)  ^  Quantum Efficiency ​ ^ +^  Model  ^  Type  ^  Frame Size  ^  Pixel Size (µm)  ^  Quantum Efficiency ​ ​^ ​ Mode  ^ 
-|  [[https://​www.photometrics.com/​wp-content/​uploads/​2019/​10/​Evolve512-Datasheet.pdf|Photometrics Evolve 512]]  |  EMCCD  |  512 x 512  |  16 x 16  |  > 90%  | +|  [[https://​www.photometrics.com/​wp-content/​uploads/​2019/​10/​Evolve512-Datasheet.pdf|Photometrics Evolve 512]]  |  EMCCD  |  512 x 512  |  16 x 16  |  > 90%  ​| ​ Confocal ​ | 
-|  [[https://​www.hamamatsu.com/​resources/pdf/sys/SCAS0081E_C11440-22CU.pdf|Hamamatsu ORCA-flash4.0 V2]]  |  sCMOS  |  2048 x 2048  |  6.5 x 6.5  |  82%  |+|  [[https://​www.hamamatsu.com/​content/dam/​hamamatsu-photonics/​sites/​documents/​99_SALES_LIBRARY/sys/SCAS0156E_HCImage-Flash4.0V2.pdf|Hamamatsu ORCA-flash4.0 V2]]  |  sCMOS  |  2048 x 2048  |  6.5 x 6.5  |  82%  |  ​Widefield ​ | 
 + 
 +===== Microscope Turn On Procedure ===== 
 +  * Turn on the HXP 200 fluorescent light source (if used) 
 +  * Turn on the computer (underneath the microscope table) 
 +  * Login in to Windows with your Agendo credentials 
 +  * Turn on the black socket outlet **number 1** (back left corner of microscope table) 
 +{{::​sd_power.png?​200|}} 
 +  * Wait for the Definite Focus controller to show the App-Ver. and OS-Image info 
 +{{::​df_on.png?​500|}} 
 +  * Turn on the black socket outlet **number 2** 
 +  * Turn on the black socket outlet **number 3** 
 +  * Start the **ZEN Blue** software 
 +===== Microscope Turn Off Procedure ===== 
 +If there is another user for this microscope in the __next hour__: 
 +  * Exit the **ZEN** software 
 +  * Log off the computer 
 +  * Clean up immersion objectives 
 +Else: 
 +  * Exit the **ZEN** software 
 +  * Shut down the computer (not the UPS!) 
 +  * Clean up immersion objectives 
 +  * Turn off the black socket outlets by reverse order (3→2→1) 
 +  * Turn off the HXP 200 fluorescent light source
  
 ---- ----
  
-[[resources|Back to the Resources ​page]]+[[resources|Back to the Equipment ​page]]
zeiss_cell_observer_sd.1595341034.txt.gz · Last modified: 2020/07/21 16:17 by bioimaging