Fresnel's Transmission and Reflection equations.

[reerer]

The transmission and reflection equations of light are derived using light waves represented with (Hecht, p. 111),

 

 

I = I_o cos(k₁x - wt) ĵ,...................................................................................116

 

R = R_o cos(k₁x - wt) ĵ,...............................................................................117

 

T = T_o cos(-k₂x + wt) ĵ,..............................................................................118

 

 

The incident (I), transmission (T) and reflection (R) light waves' (equ 116 - 118) interaction at the transmission and reflection surface (fig 18) is represented with,

 

 

I_o cos(k₁x - wt) j + R_o cos(k₁x - wt) j = T_o cos(- k₂x + wt) j......................119

 

 

Using t = 0 and x = 0 equation 118 forms (Hecht, p. 113), (Klein, p. 570),

 

 

I_o + R_o = T_o.............................................................................................120

.

 

The following equation (Hecht, p. 114),

 

 

n₁I_o - n₁R_o  = n₂T_o.................................................................................121

 

 

and equation 120 are used to derive the transmission and reflection equations,

 

 

t = 2n₁/ (n₁ + n₂)....................................................................................122

 

 

r = (n₂ - n₁) / (n₁ + n₂)............................................................................123

 

 

Using an air glass surface, n₁ = 1 and n₂ = 1.5, equation 121 forms,

 

 

I_o - R_o = 1.5T_o.......................................................................................124

 

 

Equations 120 and 121 are used to derive the transmission and reflection equations but the difference of the incident (I_o) and reflection (R_o) maximum amplitudes (equ 124), derived using equation 121, forms a value that is greater than the sum (equ 120).

 

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Is my mathematics right?

[Strange]

16 minutes ago, reerer said:

Is my mathematics right?

where did you copy it from?

[swansont]

14 hours ago, Strange said:

where did you copy it from?

!

Moderator Note

I second this request. Do not ignore it.

 

[Sensei]

He said that in the first line. (Eugene) Hecht wrote couple books about Optics.

https://www.amazon.com/Optics-5th-Eugene-Hecht/dp/0133977226

 

[John Cuthber]

15 hours ago, reerer said:

Is my mathematics right?

As far as I can tell, it's Hecht's maths and he probably got it right.

Why do you ask?

[reerer]

On ‎10‎/‎29‎/‎2017 at 4:57 AM, swansont said:

!

Moderator Note

I second this request. Do not ignore it.

 

 

I am the author of everything I post except for the quotations. Example, the equations of the following derivation are not mine but everything else I wrote, personally. Swear to God.

 

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The quantum mechanic step potential method is used to derive the transmission and reflection equations (Eisberg, p. 211), (McGervey, p. 102). The interaction of the incident, reflection and transmission light waves at the surface interface (x = 0) is represented with (fig 18),

 

 

I_oe^-ik₁x + R_oe^ik₁x = T_oe^-ik₂x ....................................................125

 

 

Using x = 0  in equation 125 the following equation is formed,

 

 

I_o + R_o = T_o........................................................................126

 

Differentiating equations 125 with respect to d/dx then using x = 0 forms,

 

 

k₁I_o - k₁R_o = k₂T_o...............................................................127

 

 

Replacing k with n since k is proportional to n equation 127 forms,

 

 

n₁I_o - n₁R_o = n₂T_o..............................................................128

 

 

Equations 127 and 128 are used in the derivation of the transmission and reflection equations.

 

 

t = 2n₁ / (n₁ + n₂) ..............................................................129

 

 

r = (n₂ - n₁) / (n₁ + n₂) ......................................................130

 

 

Using n₁ = 1 and n₂ = 1.5 in equation 128,

 

 

I_o - R_o = (1.5)T_o ..............................................................131

 

 

Using a air/glass interface, the difference of the incident and reflection light waves' maximum amplitudes (equ 131) is greater then the sum (equ 126) which is mathematically invalid and proves the quantum mechanics step potential derivation of the transmission and reflection equations using equations 129 and 130 is invalid and I certainly acknowledge that if I am wrong that it is a mistake to be wrong.

Edited October 30, 2017 by reerer

[swansont]

2 hours ago, reerer said:

 

I am the author of everything I post except for the quotations. Example, the equations of the following derivation are not mine but everything else I wrote, personally. Swear to God.

 

--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

 

The quantum mechanic step potential method is used to derive the transmission and reflection equations (Eisberg, p. 211), (McGervey, p. 102). The interaction of the incident, reflection and transmission light waves at the surface interface (x = 0) is represented with (fig 18),

 

!

Moderator Note

The equation numbers start at arbitrary values. Same with the figure numbers and page references. The implication of your statement is that you have written up a manuscript, numbered and referenced it, added figures, and are quoting from it. That's what's going on?

 

[reerer]

1 hour ago, swansont said:

!

Moderator Note

The equation numbers start at arbitrary values. Same with the figure numbers and page references. The implication of your statement is that you have written up a manuscript, numbered and referenced it, added figures, and are quoting from it. That's what's going on?

 

I am making up the numbers and figure numbers as I go along. Sorry for the confussion.

[Strange]

35 minutes ago, reerer said:

I am making up the numbers and figure numbers as I go along.

Why? Why start at 116?

And why include figure numbers when there are no figures?