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diff --git a/abstract.tex b/abstract.tex index 1a1060d..fdaf7b9 100644 --- a/abstract.tex +++ b/abstract.tex @@ -22,9 +22,8 @@ tunable output frequencies. % These pulses are directed into a material under investigation. % The pulses interact with the material, and due to the specific interference between the multiple fields the material is driven to emit a new pulse: the MR-CMDS signal. % -This signal may be different in frequency from the input pulses, and it may travel in a new -direction depending on the exact experiment being performed. % -% BJT: flip proceeding sentence around +This signal may have a different frequency and/or direction than the input pulses, depending on the +exact experiment being performed. % The MR-CMDS experiment involves tracking the intensity of this output signal as a function of different properties of the excitation pulses. % These properties include @@ -40,12 +39,12 @@ Because MR-CMDS is a family of related-but-separate experiments, each of them a space, there are special challenges that must be addressed when designing a general-purpose MR-CMDS instrument. % BJT: be more specific about the challenge at hand These issues require development of software, hardware, and theory. % -Five different improvements to MR-CMDS are presented in this dissertation: 1. processing software -(\autoref{cha:pro}), 2. acquisition software (\autoref{cha:acq}) 3, active artifact correction -(\autoref{cha:act}), 4. automated OPA calibration (\autoref{cha:opa}), and 5. finite pulse -accountancy (\autoref{cha:mix}). % \hyperref[prt:background]{Part I: Background} introduces relevant literature which informs on this development work. % +\hyperref[prt:development]{Part II: Development} presents five strategies used to improve MR-CMDS: +1. processing software (\autoref{cha:pro}), 2. acquisition software (\autoref{cha:acq}) 3, active +artifact correction (\autoref{cha:act}), 4. automated OPA calibration (\autoref{cha:opa}), and 5. +finite pulse accountancy (\autoref{cha:mix}). % Finally, \hyperref[prt:applications]{Part III: Applications} presents three examples where these -instruments, with these improvements, have been used to address chemical questions in -semiconductor systems. %
\ No newline at end of file +instruments, with these improvements, have been used to address chemical questions in semiconductor +systems. %
\ No newline at end of file |