Phase shift arising from reflections of metal

In summary: Thanks for the link!In summary, according to the problem, the phase shift of the reflected light wave with respect to the phase of the incident wave is not 0 or pi. The phase shift is in an electric field.
  • #1
RemoPhysics
5
0
Dear All,

I have a question about the optical properties of light in a metal.
I need to solve a problem.

Homework Statement


a] Why is the phase shift in a metal neither 0 or pi?
b] And calculate the phase shift of gold with a wavelength of 514 nm?
n_real=0,5 and n_imaginary=1,85, R=0,647
For problem b I can't find the proper equation to calculate the phase shift.

I already read Optics of Hecht, but I can't find it in Hecht. They mention it on page 131 but they do not explain it.

Thanks in advance!
 
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  • #2
Hey! Let's be sure of what's going on, is the phase shift in the magnetic or the electric field?
 
  • #4
I think the phase shift is in an electric field.
But that isn't mentioned in this problem. I only have a graph of the refractive index of gold with the real and imaginary part of the refractive index.
 
  • #5
Thanks for the link.
I will take a look.
 
  • #6
Was the question about the phase shift of the reflected light wave with respect to the phase of the incident wave?

You need to know the amplitude reflection coefficient r in terms of the refractive index N. N is a complex number for metals, it has both real and imaginary components, which were given. So r is also a complex number. Find its phase.


ehild
 
Last edited:
  • #7
Yes, I need to calculate the phase shift of the relfected wave with respect to the incident wave.
But the direction of the electric field with respect to the plane of incidence isn't given. So I don't which component I need to have of the amplitude reflection coëfficiënt. I already calculated the reflectance and the relation between the reflection coëfficiënt and the reflectance is R=r^2. I will take a look at the equations of hecht.
And for my first question there have to be a more theoretical explanation for why the phase shift in a metal isn't 0 or pi?
Thanks for the advice!
 
  • #8
RemoPhysics said:
And for my first question there have to be a more theoretical explanation for why the phase shift in a metal isn't 0 or pi?

What phase shift do you speak about inside the metal? Phase shift of what with respect to what? And why should it be pi or zero?

ehild
 
  • #9
I mean the phase shift due to reflections. So the phase shift of the reflective wave with respect to the incident wave.
In general for a dielectric if the component of the electric field normal to the plane of incidence undergoes a phase of pi upon reflection when the incident medium has a lower refractive index than the transmitting medium. Otherwise the phase shift is 0.
But the phase shift due to reflections in a metal occur in both components(parallel and perpendicular). And in Hecht they mention it on page 131, "These phase shifts are generally neither 0 or pi, with a notable exception at
teta_incidence=90 degrees".
 
  • #10
So it is the phase upon reflection, not in the metal as you wrote.
You certainly heard about Fresnel reflection coefficients, did you? And you learned about Snell's Law and know what refraction index is.

They can be derived from the Maxwell equations for the electric and magnetic fields, and also from the boundary conditions for the fields at the interface of two media. The components of both fields, parallel with the interface are the same at both sides of the interface, in both media.

If the light arrives from a medium of refractive index n1 and incident normally onto a medium of refractive index n2, the ratio of the amplitude of the reflected wave to that of the incident wave is

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

In case of real refractive indices, r is positive if n1>n2 and negative if n1<n2. In the first case, the reflected wave is in phase with the incident one (phase shift is zero), in the second case the reflected wave is in the opposite phase its phase shift is pi.

The refractive index of the metals is a complex number, with both real and imaginary parts. The reflection coefficient is also a complex number, with magnitude and phase. The phase of r is equal to the phase shift between the reflected and incident waves.
The refractive index of gold was given as N=0.5+1.85 i. The reflection coefficient of the air-gold interface is
r=(1-N)/(1+N).

The imaginary part of the refractive index in the metals is consequence of their conductance.
You might find this place useful http://farside.ph.utexas.edu/teaching/jk1/lectures/node58.html

ehild
 
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Related to Phase shift arising from reflections of metal

What is a phase shift?

A phase shift is a change in the relative timing or position of a wave compared to another wave or reference point. It is measured in degrees or radians and can occur in various types of waves, including electromagnetic and sound waves.

How does metal affect phase shift?

Metal surfaces can reflect electromagnetic waves, causing a phase shift in the reflected wave. The amount of phase shift depends on the angle of incidence and the properties of the metal, such as its conductivity and thickness.

Why is phase shift important in scientific research?

Phase shift can provide valuable information about the properties of materials, such as their electrical or acoustic properties. It is also used in various scientific techniques, such as interferometry, to measure small changes in wave properties.

Can phase shift be controlled or manipulated?

Yes, phase shift can be controlled by adjusting the properties of the reflecting material or by using specialized devices such as phase shifters or delay lines. This allows for precise manipulation of wave properties for various applications, such as in telecommunications.

What are some practical applications of phase shift arising from reflections of metal?

Phase shift arising from reflections of metal is used in a variety of applications, including radar systems, imaging techniques, and communication technologies. It is also utilized in non-destructive testing to detect defects in metal structures and in medical imaging to create detailed images of the human body.

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