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orbital overlap : ウィキペディア英語版
orbital overlap
In chemical bonds, an orbital overlap is the concentration of orbitals on adjacent atoms in the same regions of space. Orbital overlap can lead to bond formation. The importance of orbital overlap was emphasized by Linus Pauling to explain the molecular bond angles observed through experimentation and is the basis for the concept of orbital hybridisation. Since ''s'' orbitals are spherical (and have no directionality) and ''p'' orbitals are oriented 90° to each other, a theory was needed to explain why molecules such as methane (CH4) had observed bond angles of 109.5°.〔Anslyn, Eric V./Dougherty, Dennis A. (2006). ''Modern Physical Organic Chemistry''. University Science Books.〕 Pauling proposed that s and p orbitals on the carbon atom can combine to form hybrids (sp3 in the case of methane) which are directed toward the hydrogen atoms. The carbon hybrid orbitals have greater overlap with the hydrogen orbitals, and can therefore form stronger C–H bonds.〔Pauling, Linus. (1960). ''The Nature Of The Chemical Bond''. Cornell University Press.〕
A quantitative measure of the overlap of two atomic orbitals on atoms A and B is their overlap integral, defined as
: \mathbf_\mathrm=\int \Psi_\mathrm^
* \Psi_\mathrm \, dV,
where the integration extends over all space. The star on the first orbital wavefunction indicates the complex conjugate of the function, which in general may be complex-valued.
==Overlap matrix==
The overlap matrix is a square matrix, used in quantum chemistry to describe the inter-relationship of a set of basis vectors of a quantum system, such as an atomic orbital basis set used in molecular electronic structure calculations. In particular, if the vectors are orthogonal to one another, the overlap matrix will be diagonal. In addition, if the basis vectors form an orthonormal set, the overlap matrix will be the identity matrix. The overlap matrix is always ''n''×''n'', where ''n'' is the number of basis functions used. It is a kind of Gramian matrix.
In general, each overlap matrix element is defined as an overlap integral:
:\mathbf_=\left \langle b_j|b_k \right \rangle=\int \Psi_j^
* \Psi_k \, d\tau
where
:\left |b_j \right \rangle is the ''j''-th basis ket (vector), and
:\Psi_j is the ''j''-th wavefunction, defined as :\Psi_j(x)=\left \langle x | b_j \right \rangle.
In particular, if the set is normalized (though not necessarily orthogonal) then the diagonal elements will be identically 1 and the magnitude of the off-diagonal elements less than or equal to one with equality if and only if there is linear dependence in the basis set as per the Cauchy–Schwarz inequality. Moreover, the matrix is always positive definite; that is to say, the eigenvalues are all strictly positive.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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