Equipment

EBB

IBB

Spinning Disk confocal #1 Zeiss LSM700
Spinning Disk confocal #2 Zeiss LSM900 w/Airy Scan
Bruker Opterra Sweptfield Confocal Zeiss LSM 710NLO
Bruker Investigator Upright and FLIM Zeiss LSM 780 / Elyra PS.1
Zeiss Light Sheet Z1 Microscope Zeiss AxioObserver Z1 wide field microscope
Bruker Vutara Super-resolution Microscope BioTek Cytation 7 Imaging Plate Reader
w/ BioSpa Robotic Incubation System
CytoViva Darkfield Microscope Molecular Devices ImageXpress Pico Imager System
  PALM Microdissection

Modalities

  • Point scanning confocal
  • Spinning disk confocal
  • Lightsheet/Single Plane Illumination
  • Two-photon and Second Harmonic Generation
  • Spectral imaging
  • Fluorescence Resonance Energy Transfer (FRET)
  • Fluorescence Recovery After Photobleaching (FRAP)
  • Intravital imaging
  • Super-Resolution (structured Illumination (SIM) and Single Molecule Localization (PALM/STORM)
  • Total Internal Reflectance Fluorescence (TIRF)
  • Live-cell imaging (with CO2, temperature, and humidity control)
  • Reflected confocal
  • Widefield fluorescence
  • Phase-contrast
  • Multipoint acquisition
  • Automated plate/slide imaging

PerkinElmer Spinning Disk Confocal (EBB Building - EBB2037)

Spinning Disk Confocal #1 (EBB Building)This PerkinElmer UltraVIEW VoX is one of two spinning disk confocal microscopes available through the Optical Microscopy Core. It is ideal for a variety of live cell imaging experiments. A stage top incubator is available for live cell imaging. This system is equipped with six laser excitation lines and an EM-CCD camera for highly sensitive detection.  An LED transilluminator is used for fast brightfield and DIC illumination switching.

 

Modalities:

  • Spinning disk confocal
  • Resonance Energy Transfer (FRET)
  • Fluorescence Recovery After Photobleaching (FRAP)
  • Live-cell imaging (with CO2, temperature and humidity control)
  • Multipoint acquisition and stitched image microscopy

Spinning Disk Detector: 
Hamamatsu C9100-23b back-thinned EM-CCD
Laser Lines:
405
445
488
514
561
640nm
Microscope Body:
Nikon Ti-E with Perfect Focus 3
Objectives:
10x 0.3 Air
20x 0.75 Air
60x 1.49 TIRF Oil
Stage:
ASI XY motorized stage with linear encoders and 150-micron travel Piezo-Z
Stage top Incubator: 
Pathology Devices LiveCell with temperature, humidity, and CO2 control. Compatible with chambered coverglass “lab-Tek” dishes as well as glass-bottom petri dishes “MatTek Dishes” as well as multiwall plates.
To reserve equipment:
https://sums.gatech.edu/Department_View.aspx?DepartmentId=35
Contact:
Danielle Scheff 


Nikon Spinning Disk Confocal (EBB Building- EBB2037)

Spinning Disk Confocal #2 (EBB Building)This Nikon W1 is one of two spinning disk confocal microscopes available through the Optical Microscopy Core. It is ideal for a variety of live cell imaging experiments. This system is equipped with four laser excitation lines and an sCMOS camera for highly dynamic range detection. A stage top incubator is available for live cell imaging. It is also equipped with Nikon’s motorized TIRF illuminator.

 

 

Modalities:

  • Spinning disk confocal
  • Resonance Energy Transfer (FRET)
  • Live-cell imaging (with CO2, temperature, and humidity control)
  • Multipoint acquisition and stitched image microscopy
  • Total Internal Reflectance Fluorescence (TIRF)

Spinning Disk Detector: 
Hamamatsu FLASH 4 sCMOS version 2

Laser Lines:
405
445
488
561
640nm
Microscope Body: 
Nikon Ti-E with Perfect Focus 3 and motorized TIRF
Objectives:
10x 0.3 Air
20x 0.75 Air
40x 1.3 oil
60x 1.49 TIRF Oil
Stage:
ASI XY motorized stage with linear encoders and 150-micron travel Piezo-Z
Stage Top Incubator: 
Pathology Devices LiveCell with temperature, humidity, and CO2 control. Compatible with chambered coverglass “labtek” dishes as well as glass-bottom Petri dishes “MatTek Dishes” as well as multiwall plates.
To Reserve Equipment:
https://sums.gatech.edu/Department_View.aspx?DepartmentId=35
Contact:
Danielle Scheff


CytoViva Darkfield Microscope (EBB Building - EBB2037)

The CytoViva advanced darkfield illumination system uses a specialized illuminator that focuses fixed-geometry, highly collimated light at oblique angles on the sample. This system can enhance the signal-to-noise ratio of non-fluorescing samples. This system is especially useful for unstained samples and samples that with non-fluorescent tags, such as gold or silver particles.
Microscope Stand:
Olympus BX51 upright microscope
Detector:
Hamamatsu ORCA-ER CCD camera
Illumination:
Transmitted and epi-fluorescent
Objectives:
40X / 0.75 N.A. UPlanFL N
100X / 1.30 N.A. (oil) UPlanFL N
To reserve equipment:
https://sums.gatech.edu/Department_View.aspx?DepartmentId=35
Contact:
Danielle Scheff


Zeiss Light Sheet Z.1 (EBB Building - EBB 2037)

Zeiss Light Sheet Z.1 (EBB Building)The Lightsheet Z.1 allows for optical sectioning and high-resolution imaging of living or cleared samples with minimal photobleaching and minimal phototoxicity. It is ideal for 3D imaging. Applications include studying processes such as embryogenesis, morphogenesis, organogenesis, vascular or neuro development, cell dynamics, calcium imaging, and blood flow. Common samples include zebrafish, Drosophila, 3D cell culture such as organoids, tissue/organotypic cultures, optically cleared specimens using CLARITY, plants, and marine animals such as ciona, squid, plankton, and flatworms.

Bruker Investigator Upright Multiphoton Microscope

Modalities:

  • Multiphoton microscopy
  • Fluorescence Lifetime Imaging microscopy (FLIM)

Detection:
Dual PCO.Edge sCMOS cameras for multiview acquisition
Laser lines:
405 (50mW)
488 (50mW)
561 (50mW)
638nm (75mW)
Dual side Illumination with pivot
Objectives:
16x 0.8 Water Dipping
20X 0.75 Air
40X 0.8 Water Dipping
60X 0.95 Air


Incubation:
CO2 incubator with temperature and humidity control
To reserve equipment:
https://sums.gatech.edu/Department_View.aspx?DepartmentId=35
Contact:
Danielle Scheff


Zeiss LSM 780 and Elyra PS.1 (Petit Institute – IBB 1325)

Zeiss LSM 780 and Elyra PS.1 (Petit Institute – IBB 1325)The Elyra PS.1 system allows for imaging beyond the diffraction limit of standard confocal microscopy. The PS.1 system utilizes either Structured Illumination Microscopy (SIM) to increase the resolving capabilities down to approximately 100nm or Photo Activation Light Microscopy (PALM) to resolve down to 20 nm. TIRF optics, an integrated FCS analysis module and photon counting capabilities are also available with the system.

Modalities:

  • Super-Resolution (structured Illumination (SIM) and Single Molecule Localization (PALM/STORM)
  • Point scanning confocal
  • Fluorescence Correlation Spectroscopy (FCS)
  • Fluorescence Recovery After Photobleaching (FRAP)
  • Fluorescence Resonance Energy Transfer (FRET)
  • Total Internal Reflectance Fluorescence (TIRF),
  • Reflected confocal
  • Widefield fluorescence
  • Multipoint acquisition
  • Stitched image microscopy

The 780 scan head is equipped with:
A standard PMT
A 32 channel spectral GaAsP detector and
A cooled GaAsP detector for increased sensitivity over long wavelengths.
A transmitted light PMT
Laser lines available:
Elyra (super-resolution) system:
     405nm (50mW)
     488nm (200mW)
     561nm (200mW)
     633nm (150MW)
780 scan head (confocal):
     405
     458
     488
     514
     561
     594
     633nm
Objective lenses:
10X / 0.3NA EC Plan Neofluor (wd = 5.20mm)
20X / 0.8NA Plan Apochromat (wd = 0.550mm)
40X / 1.4NA (oil) Plan-Apochromat (wd = 0.130mm)
40X / 1.2NA (water) C-Apochromat (wd = 2.80mm)
63X / 1.4NA (oil) Plan Apochromat (wd= 0.190mm)
100X / 1.46 (oil) TIRF α-Plan Apochromat (wd = 0.110mm)
To reserve equipment:
https://sums.gatech.edu/Department_View.aspx?DepartmentId=35
Contact:
Sandy Hsieh


LSM 710 NLO Confocal (Petit Institute – IBB 1326)

LSM 710 NLO Confocal (Petit Institute – IBB 1326)The LSM 710 NLO confocal microscope is designed and equipped for in vivo and live cell imaging.  The main system consists of a Zeiss 710 confocal scan head with mounted on an AxioObserver Z1 inverted microscope stage with Definite Focus, automatic focus control.

Modalities:

  • Point scanning confocal
  • Two-photon and second harmonic generation
  • Spectral imaging
  • Fluorescence Resonance Energy Transfer (FRET)
  • Fluorescence Recovery After Photobleaching (FRAP)
  • Intravital imaging
  • Live-cell imaging (with CO2, temperature, and humidity control)
  • Reflected confocal
  • DIC & phase contrast
  • Multipoint acquisition

Stitched image microscopy
Laser Lines available:
405
458
488
514
561
594
633nm
Pulsed IR laser tunable 690-1064nm for 2-photon imaging
Detectors available:
2 standard PMTs
A 32 channel spectral detector
Transmitted light PMT 
2 channel reflected light non-descanned detector
Objective lenses available:
5X / 0.16 NA Plan-Apochromat (wd = 12.100mm)
10X / 0.3 NA EC Plan-Neofluar (wd = 5.200mm)
20X / 0.8 NA Plan-Apochromat (wd = 0.550mm)
20X / 0.4 N.A. LD Plan Neofluar (wd = 7.90mm)
20X / 1.0 NA W Plan-Apochromat dipping lens (for intravital / in situ imaging) (wd = 1.80 mm)
40X / 1.2 NA water-immersion C-Apochromat (wd = 0.280mm)
40X / 1.3 NA oil-immersion EC Plan Neofluar (wd = 0.200mm)
63X / 1.4 NA oil-immersion Plan Apochromat (wd = 0.190mm)

A CO2 incubation chamber is available for live cell imaging.  An objective inverter, to convert the system to an upright configuration is also available for in vivo imaging.
To reserve equipment:
https://sums.gatech.edu/Department_View.aspx?DepartmentId=35
Contact: 
Sandy Hsieh


Zeiss LSM 700 “A” (Petit Institute – IBB 1328)

Zeiss LSM 700 “A” (Petit Institute – IBB 1328)The Zeiss LSM 700 System A consists of an LSM 700 scan head mounted on a AxioObserver Z1 inverted microscope stand and a Motorized stage.

Modalities:

  • Point scanning confocal
  • Fluorescence Resonance Energy Transfer (FRET)
  • Fluorescence Recovery After Photobleaching (FRAP)
  • Multipoint acquisition, and stitched image microscopy

Detectors:
2 PMTs plus a transmitted light PMT
Laser Lines:
405nm
488nm
555nm
639nm
Objectives:
10X / 0.3 N.A. Plan Neofluar (wd = 5.2mm)
20X / 0.8 N.A. Plan Apochromat (wd = 0.550mm)
20X / 0.4 N.A. LD Plan Neofluar (wd = 7.90mm)
40X / 0.6 N.A. LD Plan Neofluar (wd = 2.9mm)
40X / 1.3 N.A. Plan Neofluar (oil) (wd = 0.210mm)
63X / 1.4 N.A. Plan Apochromat (oil) (wd = 0.190mm)
To reserve equipment:
https://sums.gatech.edu/Department_View.aspx?DepartmentId=35
Contact: 
Sandy Hsieh


Zeiss LSM900 "A" (Petit Institute – IBB 1328)

 

machineThe LSM 900 has several image modalities:

Confocal laser scanning imaging: The innovative LSM Plus provide better contract and resolution with minimum light exposure. It also allow the user to save time during acquisition with less averaging and faster scanning.

Airyscan super resolution confocal: The Airyscan 2 detector delivers super-resolved image fast and makes larger fields of view imaging more possible than before with a resolution down to 120nm.

 

Modalities:

  • Point scanning confocal
  • Fluorescence Resonance Energy Transfer (FRET)
  • Fluorescence Recovery After Photobleaching (FRAP)
  • Live-cell imaging (with CO2, temperature and humidity control)
  • Multipoint acquisition, and stitched image microscopy

The system is equipped with:

4 laser lines available: 405nm, 488nm, 555nm, and 639nm
2 PMTs plus a transmitted light PMT
Airyscan detection for increased resolution, speed, or sensitivity
Motorized stage

Objectives available:
5X / 0.16NA Plan-Apochromat (wd = 12.10mm)
10X / 0.3NA Plan Apochromat (wd = 5.20mm)
20X / 0.8NA Plan Apochromat (wd = 0.550mm)
40X / 1.3NA (oil) Plan Apochromat (wd = 0.210mm)
63X / 1.4NA (oil) Plan Apochromat (wd = 0.190mm)

Incubator:
CO2 incubator with temperature and humidity control
To reserve equipment:
https://sums.gatech.edu/Department_View.aspx?DepartmentId=35
Contact:

Sandy Hsieh


Bruker Investigator Upright Multiphoton Microscope (EBB 4163)

The Bruker Ultima Investigator is an upright multiphoton microscope designed for both intravital and in vitro microscopy. The microscope body itself moves is motorized in X, Y, and Z so samples may remain fixed in place. The objective nose piece tilts up to 90 degrees for off-axis imaging. The laser is a Coherent Chameleon Discovery with two synchronized laser lines, a 680-1300nm tunable line and a 1040nm fixed. This system has two GaAsP detectors, standard galvos and resonant scanners, and a Becker-Hickl SPC-150 module for lifetime imaging (FLIM). A GPIO box allows for input and output triggers and analog signals generated by the system enable interaction with external devices for sensory stimulation, electrical recording, and other experimental devices.
Laser:
Coherent Chameleon Discovery (Synchronized 680-1300nm Variable, and 1040nm Fixed Lines)
Resonance Energy Transfer (FRET)
Directors:
Two Hamamatsu H10770 GaAsP tubes
Objectives Available:
Nikon 16x NA 0.8 WD 3mm
Fluorescence Lifetime:
Becker-Hickl SPC-150 TCSPC
Microscope: 
Custom Bruker upright
Stage: 
Microscope moves in XY and Z. Motorized sample stage is available
Piezo Z:
250 micron objective mount piezo is available for high speed imaging.
Multiphoton Emission Filter-sets:
Green/Red: ET525/70m-2p and ET595/50m-2p and T565lpxr dichroic mirror
SHG/Green: ET460/40m-2P and ET525/50m-2P with T495LPXR Dichroic mirror
Epi Fluorescence Filter set (not for imaging): 
ET-GFP (FITC/CY2), ET-DSRed (TRITC/CY3)
To reserve equipment:
https://sums.gatech.edu/Department_View.aspx?DepartmentId=35
Contact: 
Sandy Hsieh


Bruker Opterra II Swept Field Microscope (EBB 4163)

Bruker Opterra II Swept Field Microscope (EBB 4163)The Bruker Opterra II is a swept field confocal microscope designed for rapid imaging and simultaneous photoactivation/bleaching. It is ideal for a variety of live cell and fixed sample imaging experiments. This system is equipped with five imaging laser lines and an EM-CCD for fast acquisition and sensitive detection. Simultaneous imaging and photoactivation/photobleaching is available for opto-genetic and FRAP/FLIP experiments. Stage top incubator is Available for live cell imaging. The microscope body is equipped with Perfect Focus 3 to minimize Z-axis drift during time lapse imaging and a motorized XY stage and piezo Z.

Swept Field Confocal detector:
Photometrics Evolve 512 Delta EM-CCD
Laser Lines (imaging): 
405nm
442nm
488nm
561nm
640nm
Laser Lines (Photoactivation/Photobleaching): 
405nm
488nm
Microscope Body:
Nikon Ti-E with Perfect Focus 3
Objectives installed: 
10x 0.3 air
20x s Plan Fluor ELWD air
20X 0.75 Air
40x 0.75 Air 
100x 1.4 Oil
Stage: 
ASI XY motorized stage with linear encoders and 300-micron travel Piezo-Z
Stage top incubator: 
Tokai Hit with temperature, humidity and CO2 control. Compatible with chambered coverglass “labtek” dishes, Ibidi dishes, as well as coverglass bottom Petri dishes “MatTek Dishes.”
To reserve equipment:
https://sums.gatech.edu/Department_View.aspx?DepartmentId=35
Contact: 
Danielle Scheff 


Bruker Vutara 352 Super-resolution Microscope (EBB 4157)

The Bruker Vutara-352 is a super-resolution microscope designed for single-molecule localization techniques such as dSTORM and PALM. It is equipped with an sCMOS camera for high-speed imaging up to 3000 fps, capturing super-resolution images up to video frame rate. 3D super-resolution is achieved using Biplane detection. Images can be stacked for larger 3D volumes.

Modalities:

  • Single Molecule Localization Microscopy (SMLM) ex. dSTORM, PALM, DNA-PAINT
  • Total Internal Reflection Fluorescence Microscopy (TIRF)

Camera:
Hamamatsu ORCA FLASH 4
Lasers:
405nm, 100mW
488nm, 1000mW
561nm, 1000mW
640nm, 1000mW
750nm, 1000mW (non TIRF)
Detection Modes: 
2-color and Biplane imaging for 3D super-resolution
TIRF illumination for 2D super-resolution
Incubator:
LCI with Temperature, Humidity, and CO2 control
Stage: 
Prior XY scanning Stage. Motorized Z-control.
Piezo: 
400-micron travel Z-axis
Objective Lenses Available:
Olympus U Plan S-Apochromat 60x/1.2 WD=0.28mm
Correction collar for 0.15mm - 0.20mm cover glass
Olympus APO 60x TIRFM OBJ, NA 1.49
Objectives: 
60X 1.2 Water 
60X 1.49 TIRF Oil
To reserve equipment:
https://sums.gatech.edu/Department_View.aspx?DepartmentId=35
Contact:
Danielle Scheff


BioTek Cytation 7 Imaging Plate reader w/ BioSpa 8 (IBB 1334)

BioTek Cytation 3 Imaging Plate reader w/ BioSpa 8 (IBB 0410)The BioTek Cytation 7 is a cell imaging multi-mode microplate reader that combines automated digital microscopy and conventional monochromator based microplate detection.  The microscope component is equipped with 1.25X, 2.5X, 4X, 10X, 20X, and 40X objectives and can collect brightfield as well as fluorescent images (DAPI, GFP, PE, RFP, Texas Red and CY5) via LED illumination. The reader accepts plates from 6-well to 384 well configuration, microscope slides, 35mm and 50 mm dishes and T-25 cell culture flasks. Fluorescence measurements range from 250nm – 700nm and luminescence measurement from 300nm – 700nm.
Contact:
Sandy Hsieh


Zeiss AxioObserver Z1 Fluorescent Microscope (IBB 1325)

Zeiss AxioObserver Z1 Fluorescent Microscope (IBB 1328)The inverted fluorescent microscope is equipped with:
Zeiss AxioCam color camera
Zeiss AxioCam 705 CMOS camera
Motorized stage
Objective lenses available:
5X / 0.16N.A. Plan Apochromat (wd= 12.10mm)
10X / 0.3 NA Plan Neofluar (wd = 5.2mm)
20X / 0.8 NA Plan Apochromat (wd = 0.550mm)
40X / 1.3 NA LD Plan Neofluar (wd = 0.210mm)
63X / 1.4 NA Plan Apochromat (oil) (wd = 0.190mm)
100X / 1.4 NA Plan Apochromat (oil) (wd = 0.170mm)

 

Contact:
Sandy Hsieh


Molecular Devices ImageXpress Micro XLS Imager (IBB 3325B)

Molecular Devices ImageXpress Micro XLS Imager (IBB 3325B)The Molecular Devices ImageXpress Micro XLS Imager can rapidly image slides and multiwell plates.

Image slides as well as multiwell plates (6- to 1536-well).
It is equipped with:
4.66Mpixel CMOS camera for a wide field of view
Fully automated x-y stage
laser auto-focus
Fluorescent + brightfield imaging
Objectives available
4X
10X
20X
40X
Fluorescent channels
DAPI
GFP
RFP
TexRed
Cy5
Extensive sample compatibility
Slides to plates
6 to 1536 wells
Thin to thick plate bottoms
Glass to plastic
Transwell

Contact:
Sandy Hsieh


Zeiss PALM Microdissection Microscope (IBB1120)

 

zeiss palmLaser Capture Microdissection Microscope

•Suitable for laser microdissection and analysis for DNA, RNA and protein isolation — whether from archive material or live cells

•Applicable to cryosections, FFPE (formalin fixed and paraffin embedded) tissue

•Microdissection from standard glass slides, e.g. archived material

•Calibration routines to adjust laser parameters to your specimen

Contact:
Sandy Hsieh