NIRvana: 640. Applications: Nanotube fluorescence, emission, absorption, non-destructive testing and singlet oxygen detection

NIRvana: 64 The NIRvana: 64 from Princeton Instruments is the world s first scientific grade, deep-cooled, large format InGaAs camera for low-light scientific SWIR imaging and spectroscopy applications. The camera uses a 64 x 512 InGaAs array with response from.9 µm to 1.7 µm. The detector is Peltier cooled to -85 C to minimize thermally generated noise and to improve signal-to-noise ratio for the most demanding SWIR applications. It offers 16-bit digitization and low read noise for outstanding dynamic range. FEATURES BENEFITS 64 x 512 InGaAs array High resolution imaging in the SWIR region; Offers 4X more pixels over 32 x 256 sensor 2 mm x 2 mm pixels High spatial resolution Response from.9 mm to 1.7 mm with 85% (typical) peak quantum efficiency Thermo-electric (Peltier) cooling Integrated cold-shield Electronic shutter C-mount Fused silica window GigE interface Optional: LightField (for Windows 8/7, 64-bit) Or WinView/Spec (for Windows 8/7/XP, 32-bit) SITK for LabVIEW PICAM (64-bit)/PVCAM (32-bit) software development kits (SDKs) Excellent SWIR sensitivity for demanding imaging applications Minimizes dark noise and allows extended integration times without the need for liquid nitrogen; Built-in air or liquid cooling option for vibration sensitive environments Special cold shield limits the ambient thermal background Provides integration times from 2 ms to many minutes Standard lens interface compatible with numerous lenses and microscopes (spectrometer adapters available) AR coated, fused silica window for high transmission in SWIR range Industry standard for fast data transfer over long distances, up to 5 m Flexible software packages for data acquisition, display and analysis; LightField offers intuitive, cutting edge user interface, IntelliCal and more Easy integration into complex experimental setup Compatible with Windows 8/7/XP, and Linux; Universal programming interfaces for easy custom programming. NIRvana: 64 shown with lens, sold separately. NOTE: Export of this camera outside of the United States is prohibited by law unless accompanied by a valid Export License as issued by the United States Department of Commerce. Applications: Nanotube fluorescence, emission, absorption, non-destructive testing and singlet oxygen detection NIRvana: 64 Rev. P2 Page 1 of 8 Princeton Instruments 366 Quakerbridge Rd Trenton, NJ 8619 USA +1 69-631-4 www.princetoninstruments.com info@princetoninstruments.com

SPECIFICATIONS CCD image sensor CCD format CCD image area NIRvana: 64 2D InGaAs focal plane array 64 x 512 imaging pixels 12.8 mm x 1.24 mm Pixel size 2 µm x 2 µm Pixel well capacity (e - ) High Gain 5, Nominal gain (e - /count) 1 14 Typical system read noise (e - ) Response nonlinearity: High gain < 2** % Cooling temp. @ +2 C ambient Cooling method Dark current (e - /p/sec) @ -8 C ~27*** Blemish specification Digitization Scan rate Frame rate Binning and ROI Cold shield Exposure time Window material Thermostating precision Operating temperature Certification < 7* (High Gain) High Capacity 6, -8 C (guaranteed), -85 C (typical with Air +15 C liquid circulation) Air only, liquid only, or a combination of air and liquid Grade A: <2% defects For detailed blemish specifications, contact Princeton Instruments 16 bits 2 MHz, 5 MHz, 1 MHz 22 fps @ 2 MHz 55 fps @ 5 MHz 11 fps @ 1 MHz Software only f#/1.5 < 2 ms to >1 min Fused Silica (AR coated) ±.5 C across entire temperature range C to +3 C CE Weight / Dimensions (C-mount) 9.5 lbs (4.3 kg) / 7.4 x 5.8 x 5.8 (187.96 mm x 147.32 mm x 147.32 mm) (L x W x H) Weight / Dimensions (SP-mount) 9.5 lbs (4.3 kg) / 7.297 x 5.8 x 5.8 (185.34 mm x 147.32 mm x 147.32 mm) (L x W x H) All specifications are typical. Subject to change without notice. * Measured with 1 µs exposure time ** Linearity for exposure > 2 ms *** Measured with a cold target at -174 C (+99 K) NIRvana: 64 Rev. P2 Page 2 of 8 Princeton Instruments 366 Quakerbridge Rd Trenton, NJ 8619 USA +1 69-631-4 www.princetoninstruments.com info@princetoninstruments.com

SENSOR QUANTUM EFFICIENCY CURVE 1 9 8 Quantum Efficiency (%) 7 6 5 4 3 2 1.8.9 1. 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 Wavelength (µm) NOTE: Graph shows typical Quantum Efficiency (QE) data measured at + 25 C. Longer cut-off wavelength shifts towards blue by 8 nm per every 1 C of cooling. NIRvana: 64 Rev. P2 Page 3 of 8 Princeton Instruments 366 Quakerbridge Rd Trenton, NJ 8619 USA +1 69-631-4 www.princetoninstruments.com info@princetoninstruments.com

DARK CHARGE VS. FPA TEMPERATURE 1,, LN Temperature Target Room Temperature Target 1,, Dark Charge (e-/p/s) 1, 1, 1, 1 1-1 -8-6 -4-2. 2 4 FPA Temperature ( C) NIRvana: 64 Rev. P2 Page 4 of 8 Princeton Instruments 366 Quakerbridge Rd Trenton, NJ 8619 USA +1 69-631-4 www.princetoninstruments.com info@princetoninstruments.com

MAX. EXPOSURE TIME VS. FPA TEMPERATURE 1 1 Exposure Time (sec) 1.1.1 4 2-2 -4-6 -8-1 FPA Temperature ( C) NIRvana: 64 Rev. P2 Page 5 of 8 Princeton Instruments 366 Quakerbridge Rd Trenton, NJ 8619 USA +1 69-631-4 www.princetoninstruments.com info@princetoninstruments.com

APPLICATION IMAGES SWIR Angiography Topographical rendering of energymomentum-resolved spectroscopy Image courtesy: Bawendi Lab, Massachusetts Institute of Technology, Cambridge, MA. From high-speed intravital imaging for angiography in a brain tumor model to high resolution and high-speed SWIR intravital imaging to generate flow maps of microvascular networks using QD composite particles. Single walled nanotube (SWNT) Image courtesy of Dr. Rashid Zia, Manning Assistant Professor, School of Engineering, Brown University, Providence, RI USA Images courtesy of Dr. R. Bruce Weisman, Professor of Chemistry, The Richard E. Smalley Institute for Nanoscale Science and Technology, Rice University, Houston, TX USA NIRvana: 64 Rev. P2 Page 6 of 8 Princeton Instruments 366 Quakerbridge Rd Trenton, NJ 8619 USA +1 69-631-4 www.princetoninstruments.com info@princetoninstruments.com

OUTLINE DRAWING WITH C MOUNT 2.9 2.35 59.69.75 19.5.75 19.5 2.35 59.69 2.9 2.9 2.35 59.69 2.35 59.69.476 12.8 1.755 44.58 1.725 43.82.62 15.74.625 15.88 C-MOUNT THREAD 1.-2 UN 4.63 2 UN THREAD 1.796 45.62 1.255 31.88.55 12.83.316 8.3 2.9 3.96 99.2 WINDOW FRONT SURFACE.351 8.91 WINDOW IN VACUUM SURFACE.69 FPA LOCATION 1.15 29.21 3.13 79.53 LIQUID COOLANT INLET/OUTLET 7.4 187.84 7.62 193.66 NOTES: 1. ALL DIMENSIONS IN INCHES [MM] 2. WEIGHT: 9.5 LBS / 4.3 KGS 3. 4. 5. WINDOW THICKNESS =.125" [3.18MM] MECHANICAL SHUTTER NOT AVAILABLE MAX. POWER CONSUMPTION = 135W Spectrometer adapter is available upon request. NIRvana: 64 Rev. P2 Page 7 of 8 Princeton Instruments 366 Quakerbridge Rd Trenton, NJ 8619 USA +1 69-631-4 www.princetoninstruments.com info@princetoninstruments.com

OUTLINE DRAWING WITH SPECTROMETER MOUNT 3.6 91.45 B.C. 17.5 35 2X 1-32 UNF TYP. ALL FOUR SIDES 2.9.59 14.99 FPA DISTANCE.75 19.5.75 19.5 2.9 2.9 2.9 3.96 99.2 1.125 28.58 1.125 28.58 1.796 45.62 1.255 31.88.55 12.83.316 8.3.63.252 6.41 FRONT SURFACE OF VACUUM WINDOW 1.5 26.67 3.32 77.2 7.297 185.33 7.526 191.16 1.755 44.58 1.725 43.82.62 15.74.625 15.88 4.2 16.68 COOLANT INLET/OUTLET NOTES: 1. ALL DIMENSIONS IN INCHES (MM) 2. 3. 4. 5. WEIGHT: 9.5 LBS / 4.3 KGS WINDOW THICKNESS =.125" [3.18MM] MECHANICAL SHUTTER NOT AVAILABLE MAX. POWER CONSUMPTION = 135W C-mount adapter is available upon request. NIRvana: 64 Rev. P2 Page 8 of 8 Princeton Instruments 366 Quakerbridge Rd Trenton, NJ 8619 USA +1 69-631-4 www.princetoninstruments.com info@princetoninstruments.com