Shown in an INRS Energy, Material and Telecommunication research center informative post is a Nüvü Camēras’ HNü camera on top of a microspectroscopy system.
Novus Light presents Nüvü Camēras’ latest innovation, the HNü camera, which includes all the features of the celebrated EM N2 cameras while being thermoelectrically cooled.
Nüvü Camēras’ CEO Marie-Eve Ducharme was interviewed by online magazine Inspiro. She shares her goals and experience heading a high-tech company.
Press release describing Nüvü Camēras’ innovative HNü camera. Some of its most noteworthy specifications were mentioned such as its range of detector sizes available (128, 512 or 1024), optimal background noise below 0.001 electron/pixel/frame and its thermoelectric cooling capacity that can reach either -85°C using air cooling or -90°C with liquid cooling.
Université de Montréal published an article regarding the innovative EMCCD camera created on campus and now commercialized by two of its alumni, Marie-Eve Ducharme and Olivier Daigle, cofounders of Nüvü Camēras.
Laser Focus World issued a press release describing Nüvü Camēras’ innovative HNü camera. Some of its most noteworthy specifications were mentioned such as its maximum EM gain of 5000, background noise level below 0.001 electron/pixel/frame and a readout rate up to 20MHz.
Labrigger.com, the source for open solutions for biomedical research, whose goal is to “accelerate and enable research by reducing the duplication of effort by multiple labs”, devotes its last post to what researchers should look for prior to purchasing an EMCCD camera. Labrigger let Nüvü Camēras experts present an in-depth review of all the electronic noise sources and constraints that come into play when imaging in low-light conditions with an EMCCD camera. Take a look at the entire article here!
In the September issue of Space Quarterly, Sr. Satellite Engineer with Telesat and Chair of the Ottawa Chapter of the Canadian Space Society Ryan Anderson brings Nüvü Camēras into the limelight. From the ability to simply produce less noise to control EMCCDs, Nüvü Camēras avoids the use of noise filtering algorithms that may eliminate valuable data in addition to noise. Mentioning some of Nüvü Camēras’ most recognized customers including NASA for future applications in space, the article features VP and CTO Olivier Daigle. He provides insights on how the determination for state of the art instrumentation in astronomy helped Nüvü Camēras achieve such a reputation through scientific publications and how they lead to opportunities in the biomedical field as well as the OEM market for integrated imaging systems.
In the June 1st 2012 edition of L’Actualité magazine, an article was featured describing a variety of Nüvü Camēras’ technological innovations and also announced the forthcoming new EMCCD camera that will be available at a lesser cost and that can be used in a wide range of applications, especially in biomedical research.
A press release regarding Nüvü Camēras’ innovative EM N2 camera was issued on the Vision Systems Design website detailing some of its most notable specifications including its maximum EM gain of 5000 and subelectron background noise level. Some of the camera’s applications in the field of biomedical research were mentioned as well.