# Search results

Biomedical Research and Therapy > 2016 > 3 > 9 > 1-13

Journal of General Internal Medicine > 2016 > 31 > 11 > 1373-1381

*N*quantized electrons at positions

*x*

_{i}, and

*M*nuclei of charges

*Z*= (

*Z*

_{1},...,

*Z*

_{M}) fixed at positions

*y*= (

*y*

_{l},...,

*y*

_{M}). The Schrödinger Hamiltonian of such a system is given by ${H}_{Z,H}=\sum _{i=1}^{N}\left(-{\Delta}_{{x}_{i}}+{V}_{Coulomb}\left({x}_{i}\right)\right)+\frac{1}{2}\sum _{i\ne j}\frac{1}{\left|{x}_{i}-{x}_{j}\right|}$]]</EquationSource><EquationSource Format="TEX"><![CDATA[$${H_{Z,H}}...

Frontiers of Physics > 2017 > 12 > 1 > 1-11

Frontiers of Physics > 2017 > 12 > 1 > 1-5

Frontiers of Physics > 2017 > 12 > 1 > 1-9

*geometrical picture*), that can be put into correspondence with the usual Hamilton–Lagrange mechanics. The requirement of dynamical equivalence of the two types of Hamiltonians, that the momenta generated by the two pictures be equal for all times,...

Frontiers of Physics > 2017 > 12 > 1 > 1-8

*H*

_{0}= 100

*h*km ∙ s

^{-1}∙ Mpc

^{-1}, and the angular diameter distance from galaxy clusters or baryon acoustic oscillations (BAOs) to give the derived LD according to the distance duality relation, we propose a model-independent method to determine

*h*from the fact...

Frontiers of Physics > 2017 > 12 > 1 > 1-27

Frontiers of Physics > 2017 > 12 > 1 > 1-10

Science China Information Sciences > 2017 > 60 > 2 > 1-15

Science China Information Sciences > 2017 > 60 > 1 > 1-3

Science China Information Sciences > 2017 > 60 > 1 > 1-3

Science China Information Sciences > 2017 > 60 > 3 > 1-3

EURASIP Journal on Embedded Systems > 2017 > 2017 > 1 > 1-18

EURASIP Journal on Embedded Systems > 2017 > 2017 > 1 > 1-13

EURASIP Journal on Embedded Systems > 2017 > 2017 > 1 > 1-11

BMC Oral Health > 2017 > 17 > 1 > 1-8

BMC Oral Health > 2017 > 17 > 1 > 1-7

BMC Oral Health > 2017 > 17 > 1 > 1-10