Aq_excit_2_10_janev

public function Aq_excit_2_10_janev(eb, q) result(sigma)

Calculates the excitation cross section for a neutral Hydrogen atom transitioning from the $n=2$ state to the $m=10$ state due to a collision an ion with charge q at energy eb

Equation

$A^{q+} + H(2) \rightarrow A^{q+} + H(10), q \gt 3$

References

Page 140 in Ref. 5 atomic_tables

Arguments

Type	Intent	Optional	Attributes		Name
real(kind=Float64),	intent(in)			::	eb	Collision energy [keV]
integer,	intent(in)			::	q	Ion charge

Return Value real(kind=Float64)

Cross Section [ $cm^2$ ]

Source Code

function Aq_excit_2_10_janev(eb, q) result(sigma)
    !+Calculates the excitation cross section for a neutral Hydrogen atom transitioning from
    !+the \(n=2\) state to the \(m=10\) state due to a collision an ion with charge `q` at energy `eb`
    !+
    !+###Equation
    !+$$ A^{q+} + H(2) \rightarrow A^{q+} + H(10), q \gt 3 $$
    !+
    !+###References
    !+* Page 140 in Ref. 5 [[atomic_tables(module)]]
    !+
    real(Float64), intent(in) :: eb
        !+ Collision energy [keV]
    integer, intent(in)       :: q
        !+ Ion charge
    real(Float64)             :: sigma
        !+ Cross Section [\(cm^2\)]

    real(Float64), parameter :: A = 0.0605d0

    real(Float64) :: hi

    hi = 2.0**(0.397*(1.0 - sqrt(2.0/q)))

    sigma = A*hi*Aq_excit_2_5_janev(eb, q)

end function Aq_excit_2_10_janev

Aq_excit_2_10_janev Function

Contents

Source Code

public function Aq_excit_2_10_janev(eb, q) result(sigma)

Equation

References

Arguments

Return Value real(kind=Float64)

Calls

Called by

Contents

Source Code

Source Code