Category:AMOS: Difference between revisions
(Paste description from IMT website) |
(Add link to IMT site) |
||
| Line 4: | Line 4: | ||
The AMOS research group, established in 2014, focuses on creating and characterizing optoelectronic materials designed for energy conversion and photonic applications. Optical spectroscopy lies at the heart of our research, with laser labs based around Ti:Sapphire amplifier and oscillator systems allowing us to interrogate our materials with a wide range of experimental techniques. We have a special focus on time-resolved absorption and emission spectroscopies that track dynamic processes from hundreds of femtoseconds to seconds and allow us to understand and improve material function. |
The AMOS research group, established in 2014, focuses on creating and characterizing optoelectronic materials designed for energy conversion and photonic applications. Optical spectroscopy lies at the heart of our research, with laser labs based around Ti:Sapphire amplifier and oscillator systems allowing us to interrogate our materials with a wide range of experimental techniques. We have a special focus on time-resolved absorption and emission spectroscopies that track dynamic processes from hundreds of femtoseconds to seconds and allow us to understand and improve material function. |
||
== See also == |
|||
* [http://www.imt.kit.edu/howard.php AMOS group on the IMT website] |
|||
[[Category:F&E4]] |
[[Category:F&E4]] |
||
Revision as of 13:00, 23 June 2017
AMOS (Advanced Materials and Optical Spectroscopy) is a sub-group of F&E4 led by Dr. Ian Howard.
The AMOS research group, established in 2014, focuses on creating and characterizing optoelectronic materials designed for energy conversion and photonic applications. Optical spectroscopy lies at the heart of our research, with laser labs based around Ti:Sapphire amplifier and oscillator systems allowing us to interrogate our materials with a wide range of experimental techniques. We have a special focus on time-resolved absorption and emission spectroscopies that track dynamic processes from hundreds of femtoseconds to seconds and allow us to understand and improve material function.
See also
Pages in category "AMOS"
The following 3 pages are in this category, out of 3 total.
