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Pressure-stiffened Raman Phonons in Group III Nitrides
G. Ouyang,Sun Changqing * #,W. G. Zhu
Nanyang Technological University
*Correspondence author
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Funding: none
Opened online:11 December 2007
Accepted by: none
Citation: G. Ouyang,Sun Changqing,W. G. Zhu.Pressure-stiffened Raman Phonons in Group III Nitrides[OL]. [11 December 2007] http://en.paper.edu.cn/en_releasepaper/content/16832
 
 
It has long been puzzling regarding the atomistic origin of the pressure-induced Raman phonon stiffening that generally follows a polynomial expression with coefficients needing physical indication. Here we show that an extension of the bond-order-length-strength (BOLS) correlation mechanism to the pressure domain has led to an analytical solution to connect the pressure-induced Raman phonon stiffening directly to the bonding identities of the specimen and the response of the bonding identities to the applied stimulus. It is found that the pressure-induced blue-shift of Raman phonons arises from the bond compression and energy storage exerted by the compressive stress. Agreement between predictions and experimental measurement leads to the detailed form for the polynomial coefficients, which offer an atomic understanding of the physical mechanism of the external pressure induced energy gain, thermally induced bond expansion as well as means of determining the mode atomic cohesive energy in a specimen.
Keywords:pressure, Raman, nitride
 
 
 

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