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2. Time-resolved spectroscopy - Wikipedia

   en.wikipedia.org/wiki/Time-resolved_spectroscopy

   If the process under study is slow, then the time resolution can be obtained with a continuous (i.e., not pulsed) probe beam and repeated conventional spectrophotometric techniques. Time-resolved absorption spectroscopy relies on the ability to resolve two physical actions in real time. The shorter the detection time, the better the resolution.

3. Ultrafast laser spectroscopy - Wikipedia

   en.wikipedia.org/wiki/Ultrafast_laser_spectroscopy

   Ultrafast laser spectroscopy is a category of spectroscopic techniques using ultrashort pulse lasers for the study of dynamics on extremely short time scales (attoseconds to nanoseconds). Different methods are used to examine the dynamics of charge carriers, atoms, and molecules.

4. Nanolaser - Wikipedia

   en.wikipedia.org/wiki/Nanolaser

   Plasmonic nanolaser sensors have recently been demonstrated that can detect specific molecules in air and be used for optical biosensors. Molecules can modify the surface of metal nanoparticles and impact the surface recombination velocity of gain medium of a plasmonic nanolaser, which contributes to the sensing mechanism of plasmonic nanolasers.

5. Laser ultrasonics - Wikipedia

   en.wikipedia.org/wiki/Laser_ultrasonics

   Laser-ultrasonics uses lasers to generate and detect ultrasonic waves. [1] It is a non-contact technique used to measure materials thickness, detect flaws and carry out materials characterization. The basic components of a laser-ultrasonic system are a generation laser, a detection laser and a detector.

6. Frequency-resolved optical gating - Wikipedia

   en.wikipedia.org/wiki/Frequency-resolved_optical...

   Frequency-resolved optical gating (FROG) is a general method for measuring the spectral phase of ultrashort laser pulses, which range from subfemtosecond to about a nanosecond in length. Invented in 1991 by Rick Trebino and Daniel J. Kane, FROG was the first technique to solve this problem, which is difficult because, ordinarily, to measure an ...

7. Fluorescence-lifetime imaging microscopy - Wikipedia

   en.wikipedia.org/wiki/Fluorescence-lifetime...

   Fluorescence lifetimes can be determined in the time domain by using a pulsed source. When a population of fluorophores is excited by an ultrashort or delta pulse of light, the time-resolved fluorescence will decay exponentially as described above. However, if the excitation pulse or detection response is wide, the measured fluorescence, d(t ...

8. Time resolved crystallography - Wikipedia

   en.wikipedia.org/wiki/Time_resolved_crystallography

   The time resolution of the observed phenomena is dictated by the time width of the probing pulse (full width at half maximum). All processes that happen on a faster time scale than that are going to be averaged out by the convolution of the probe pulse intensity in time with the intensity of the actual x-ray reflectivity of the sample.

9. Time-of-flight mass spectrometry - Wikipedia

   en.wikipedia.org/wiki/Time-of-flight_mass...

   Double-hit resolution (dead time) of modern multi-hit TDC can be as low as 3-5 nanosecond. The TDC is a counting detector – it can be extremely fast (down to a few picosecond resolution), but its dynamic range is limited due to its inability to properly count the events when more than one ion simultaneously (i.e., within the TDC dead time ...