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Title: Phase I Final Technical Report: Ultrafast infrared chemical nano-scope: Femtosecond spatio-temporal nano-imaging and -spectroscopy

Abstract

to routinely probe coherent ultrafast dynamics opens a new exploratory regime in spatiotemporal imaging science. This project will help serve the great interest in driving and probing systems away from equilibrium, monitoring relaxation in both time and space, coupled laterally across heterogeneities in a wide range of materials systems. This Phase I report serves to demonstrate that all technical challenges have been met, independently, with the goal to combine on a common single instrument platform in Phase II. The following sections provide the details of the specific research results obtained during the Phase I period.

Authors:
 [1];  [2]
  1. University of Colorado
  2. Anasys Instruments Corp
Publication Date:
Research Org.:
Anasys Instruments Corporation
Sponsoring Org.:
USDOE
OSTI Identifier:
1581784
Report Number(s):
DOE_DE-SC0017109
DOE Contract Number:  
SC0017109
Type / Phase:
STTR (Phase I)
Resource Type:
Technical Report
Country of Publication:
United States
Language:
English

Citation Formats

Raschke, Markus, and Yang, Honghua. Phase I Final Technical Report: Ultrafast infrared chemical nano-scope: Femtosecond spatio-temporal nano-imaging and -spectroscopy. United States: N. p., 2020. Web.
Raschke, Markus, & Yang, Honghua. Phase I Final Technical Report: Ultrafast infrared chemical nano-scope: Femtosecond spatio-temporal nano-imaging and -spectroscopy. United States.
Raschke, Markus, and Yang, Honghua. Thu . "Phase I Final Technical Report: Ultrafast infrared chemical nano-scope: Femtosecond spatio-temporal nano-imaging and -spectroscopy". United States.
@article{osti_1581784,
title = {Phase I Final Technical Report: Ultrafast infrared chemical nano-scope: Femtosecond spatio-temporal nano-imaging and -spectroscopy},
author = {Raschke, Markus and Yang, Honghua},
abstractNote = {to routinely probe coherent ultrafast dynamics opens a new exploratory regime in spatiotemporal imaging science. This project will help serve the great interest in driving and probing systems away from equilibrium, monitoring relaxation in both time and space, coupled laterally across heterogeneities in a wide range of materials systems. This Phase I report serves to demonstrate that all technical challenges have been met, independently, with the goal to combine on a common single instrument platform in Phase II. The following sections provide the details of the specific research results obtained during the Phase I period.},
doi = {},
journal = {},
number = ,
volume = ,
place = {United States},
year = {2020},
month = {1}
}

Technical Report:
This technical report may be released as soon as January 9, 2024
Other availability
Please see Document Availability for additional information on obtaining the full-text document. Library patrons may search WorldCat to identify libraries that may hold this item. Keep in mind that many technical reports are not cataloged in WorldCat.

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