Iridian Adds 638 nm to It’s Line of Market-Leading Raman Filters
Laser diode sources operating at 638 nm have been used in pico projectors and other display applications due to their high brightness and low power consumption. Recently, these sources have become more stable, making them a viable option for Raman handheld or portable...
26th International Trade fair for Laboratory Technology, Analysis, Biotechnology and analytica conference
Iridian Spectral Technologies will exhibit in Analytica Germany on April 10-13, 2018 in Munich Germany. Welcome to visit our booth # A3.423.SPIE Defense + Commercial Sensing 2018
Iridian will exhibit at SPIE DCS (Defense and Commercial Sensing) Conference on April 17-19, 2018 at the Gaylords Palm Resort and Convention Center in Orlando, Florida, USA. We invite you to discuss your requirements with us and our team will work with you to find a...
OFC 2018 – San Diego – Mar 13 to 15, 2018
Iridian Spectral Technologies will exhibit in Optical Fiber Communications (OFC) Conference on March 13-15, 2018 in San Diego, California, USA. Our staff will be available to meet with you one-on-one to discuss your specific needs. Please visit us at Booth #1719....
Focus on Microscopy 2018
Iridian Spectral Technologies will exhibit in FOM2018 on March 25-28, 2018 in Singapore. Welcome to visit our Booth #37.
Photonics West BIOS 2018 Conference
BiOS (Jan.27-28) booth 8316
Photonics West (Jan.30-Feb.1) booth 114
The Eyes Of The Instruments: Using Optical Filters To Observe And Measure Earth From A Different Perspective
“Measurement is the first step that leads to control and eventually to improvement. If you can’t measure something, you can’t understand it. If you can’t understand it, you can’t control it. If you can’t control it, you can’t improve it.” H. James Harrington Since...Ultralow-frequency Raman system down to 10 cm−1 with longpass edge filters and its application to the interface coupling in t(2+2)LGs
Ultralow-frequency (ULF) Raman spectroscopy becomes increasingly important in the area of two-dimensional (2D) layered materials; however, such measurement usually requires expensive and nonstandard equipment. Here, the measurement of ULF Raman signal down to 10 cm−1...
