2017 results:
11. Self-op­ti­mi­zing laser diode sys­tems - Self-op­ti­mi­zing laser diode sys­tems  
Self-op­ti­mi­zing laser diode sys­tems In diode la­sers, the gain me­di­um is rea­li­zed as a se­mi­con­duc­tor com­pound with a di­rect band gap. In…  
12. Tunable la­sers - Tunable la­sers  
Tunable la­sers Our wor­king group has been dea­ling with the de­ve­lop­ment, mo­di­fi­ca­ti­on and cha­rac­te­riza­t­i­on of tunable…  
13. Indilas  
Since the end of the 1980’s there is an in­ten­se on­go­ing re­se­arch of se­mi­con­duc­tor la­sers as a sour­ce for ul­tras­hort laser…  
14. THz ra­dia­ti­on and diode laser dy­na­mics  
Fi­gu­re 1: FWM ex­pe­ri­ments. The si­de­modes are ge­ne­ra­te due to mi­xing pro­ces­ses in­si­de of the diode laser. A…  
15. THz ra­dia­ti­on and diode laser dy­na­mics - THz ra­dia­ti­on and diode laser dy­na­mics  
THz ra­dia­ti­on and diode laser dy­na­mics The basic com­po­n­ents for the ge­ne­ra­ti­on of THz ra­dia­ti­on are non­line­ar ele­ments. These…  
16. Lens­less ho­lo­gra­phic microsco­pe  
Fi­gu­re 3: Re­con­struc­tion of the yeast par­ti­cles, am­pli­tu­de in­for­ma­ti­on left and phase in­for­ma­ti­on right …  
17. Lens­less ho­lo­gra­phic microsco­pe  
Fi­gu­re 2: Ex­amp­le ho­lo­gram of yeast par­ti­cles, taken with our pro­to­ty­pe  
18. Lens­less ho­lo­gra­phic microsco­pe - Lens­less ho­lo­gra­phic microsco­pe  
Lens­less ho­lo­gra­phic microsco­pe Microsco­pes enable us to see and in­ves­ti­ga­te micro­ob­jects which would have other­wi­se been im­pos­si­ble…  
19. Holographic Imaging - Trans­mis­si­on di­gi­tal ho­lo­gra­phic ima­ging with mo­di­fied Mach-Zehn­der In­ter­fe­ro­me­ter  
Trans­mis­si­on di­gi­tal ho­lo­gra­phic ima­ging with mo­di­fied Mach-Zehn­der In­ter­fe­ro­me­ter For a wide va­rie­ty of ap­p­li­ca­ti­ons, the…  
20. Holographic Imaging  
Due to its ima­ging ca­pa­bi­li­ties and high phase sen­si­ti­vi­ty, ho­lo­gra­phic set­ups are very sui­ta­ble for the…  
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