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CROSSWORD
ANSWER

stimulated

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The answer STIMULATED has 10 possible clue(s) in existing crosswords.

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The word STIMULATED is VALID in some board games. Check STIMULATED in word games in Scrabble, Words With Friends, see scores, anagrams etc.

Searching in Dictionaries ...

Definitions of stimulated in various dictionaries:

verb - act as a stimulant

verb - cause to do

verb - stir the feelings, emotions, or peace of

more

Word Research / Anagrams and more ...

Keep reading for additional results and analysis below.

Possible Crossword Clues
Let us admit becoming excited
Stirred by feelings, I must break with dead daughter
Created excitement revealed as sham, over time
Encouraged to be false with secret ultimately hidden
Aroused
Pretended to welcome the end of August, excited
Provoked the senses

Last Seen in these Crosswords & Puzzles
Nov 11 2016 The Telegraph - Cryptic
Oct 15 2012 The Telegraph - Cryptic
Dec 29 2011 The Guardian - Cryptic crossword
May 16 2010 The Telegraph - Quick
Apr 13 2006 The Telegraph - Cryptic
Oct 3 2005 The Guardian - Cryptic crossword
Apr 2 2003 The Telegraph - Quick
Mar 29 2003 The Times - Cryptic
Jan 15 2001 The Guardian - Cryptic crossword
Jan 15 2001 The Guardian - Cryptic crossword

Stimulated description
Stimulated Raman spectroscopy, also referred to as stimulated raman scattering (SRS) is a form of spectroscopy employed in physics, chemistry, biology, and other fields. The basic mechanism that lies in the basis of SRS resembles that of spontaneous Raman spectroscopy: a pump photon, of the angular frequency * * * * * ω * * p * * * * * {\displaystyle \omega _{p}} * , which is absorbed by a molecule has some small probability of inducing some vibrational (or rotational) transition, as opposed to inducing a simple Rayleigh transition. This will then result with the molecule emission of a photon in a shifted color. However, SRS, as opposed to spontaneous Raman spectroscopy, is a third-order non-linear phenomenon involving a second photon – the Stokes photon of angular frequency * * * * * ω * * S * * * * * {\displaystyle \omega _{S}} * which stimulates a specific transition. When the difference in frequency between both photons ( * * * * * ω * * p * * * − * * ω * * S * * * * * {\displaystyle \omega _{p}-\omega _{S}} * ) resembles that of a specific vibrational (or rotational) transition ( * * * * * ω * * ν * * * * * {\displaystyle \omega _{\nu }} * ) the occurrence of this transition is resonantly enhanced. In SRS, the signal is equivalent to changes in the intensity of the pump and Stokes beams. Employing a pump laser beam of a constant frequency and a Stokes laser beam of a scanned frequency (or vice versa) allows for the unraveling of the spectral fingerprint of the molecule. This spectral fingerprint differs from those obtained by other spectroscopy methods such as Rayleigh scattering as the Raman transitions confer to different exclusion rules than those apply for Rayleigh transitions.

Stimulated description

Stimulated Raman spectroscopy, also referred to as stimulated raman scattering (SRS) is a form of spectroscopy employed in physics, chemistry, biology, and other fields. The basic mechanism that lies in the basis of SRS resembles that of spontaneous Raman spectroscopy: a pump photon, of the angular frequency
*
*
*
*
* ω
*
* p
*
*
*
*
* {\displaystyle \omega _{p}}
* , which is absorbed by a molecule has some small probability of inducing some vibrational (or rotational) transition, as opposed to inducing a simple Rayleigh transition. This will then result with the molecule emission of a photon in a shifted color. However, SRS, as opposed to spontaneous Raman spectroscopy, is a third-order non-linear phenomenon involving a second photon – the Stokes photon of angular frequency
*
*
*
*
* ω
*
* S
*
*
*
*
* {\displaystyle \omega _{S}}
* which stimulates a specific transition. When the difference in frequency between both photons (
*
*
*
*
* ω
*
* p
*
*
* −
*
* ω
*
* S
*
*
*
*
* {\displaystyle \omega _{p}-\omega _{S}}
* ) resembles that of a specific vibrational (or rotational) transition (
*
*
*
*
* ω
*
* ν
*
*
*
*
* {\displaystyle \omega _{\nu }}
* ) the occurrence of this transition is resonantly enhanced. In SRS, the signal is equivalent to changes in the intensity of the pump and Stokes beams. Employing a pump laser beam of a constant frequency and a Stokes laser beam of a scanned frequency (or vice versa) allows for the unraveling of the spectral fingerprint of the molecule. This spectral fingerprint differs from those obtained by other spectroscopy methods such as Rayleigh scattering as the Raman transitions confer to different exclusion rules than those apply for Rayleigh transitions.

Related Answers
AWAKENED
EXCITED
FIRED
turnedon
WOKE
WOKEN

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