Title :
Scanning frequency comb microscopy (SFCM): A new method showing promise for high-resolution carrier profiling in semiconductors
Author :
Hagmann, Mark J. ; Andrei, Petru ; Pandey, Shishir ; Nahata, Ajay
Author_Institution :
Electr. & Comput. Eng., Univ. of Utah, Salt Lake City, UT, USA
Abstract :
A microwave frequency comb (MFC) with hundreds of measurable harmonics is superimposed on the DC tunneling current in a scanning tunneling microscope by focusing a mode-locked ultrafast laser on the tunneling junction. Two methods for carrier profiling of semiconductors by hyperspectral measurements with the MFC are considered. The first method, analogous to scanning capacitance microscopy (SCM), would require high-precision measurements because resonant detection, required in SCM, is not practical with the MFC. The second method, analogous to scanning spreading resistance microscopy (SSRM), is more sensitive to the carrier concentration and shows promise for achieving sub-nm resolution which is needed by the semiconductor industry with sub-10 nm lithography.
Keywords :
carrier density; doping profiles; nanolithography; scanning tunnelling microscopy; DC tunneling current; SCM; SFCM; SSRM; carrier concentration; high-precision measurements; high-resolution carrier profiling; hyperspectral measurements; microwave frequency comb; mode-locked ultrafast laser; resonant detection; scanning capacitance microscopy; scanning frequency comb microscopy; scanning spreading resistance microscopy; scanning tunneling microscope; semiconductor industry; sub-10 nm lithography; tunneling junction; Capacitance; Current measurement; Microwave measurement; Microwave theory and techniques; Resistance; Semiconductor device measurement; Tunneling; carrier profiling; dopant profiling; femtosecond laser; microwave frequency comb; scanning probe microscopy;
Conference_Titel :
Advanced Semiconductor Manufacturing Conference (ASMC), 2014 25th Annual SEMI
Conference_Location :
Saratoga Springs, NY
DOI :
10.1109/ASMC.2014.6847001
