Page images
PDF
EPUB

The intensity of the ray transmitted by this slightly absorbent layer was determined by an electrometer E placed at a quarter wave-length (2.25 metres) from the closed end of the circuit.

[merged small][ocr errors]

66

This intensity varied periodically with the thickness of the layer, as in the analogous case of a ray of light and a thin plate."

66

con

The layer AB was what Boltzmann has termed a ducting dielectric," i. e. both its conducting and dielectric properties were of importance. The theory of a non-conducting plate is much simpler: a problem equivalent to it has recently been treated by Dr. E. H. Barton *, to whose work I shall have several occasions to refer. In the more complex problem I have assumed, we have simply a plane-fronted damped wave-train travelling through an insulating medium and falling at normal incidence on an infinite slab of conducting dielectric. The magnetic permeability of both the plate and the surrounding medium are taken as unity.

The theoretical transmission-curve obtained on these assumptions does not agree well with the experimental one, the divergence being the same in sign and order of magnitude as that noticed by Dr. Barton in his case. We have in fact idealized the experimental facts too far in endeavouring to simplify the analysis: the electrolyte was not at all infinite in extent, and at least one important correction is obviously necessary (section VI.). The experiments can only be regarded as a very rough illustration of the problem, and as giving the raison d'être of this paper.

The general results obtained seem to be of considerable interest. The intensities of the reflected rays, the phasechanges, and so on, for damped wave-trains reflected from such a plate differ from those for steady rays in some cases very considerably.

For convenience and brevity, the surrounding medium is

*Preliminary Paper, Proc. Roy. Soc. vol. liv. p. 85; more fully in Thesis for the D.Sc. London, 1894, or Wied. Ann. vol. liii. p. 513, 1894. Final paper, Proc. Roy. Soc., read April 1893 (not yet published).

hereinafter generally referred to as "the dielectric," and the conducting slab as the plate" or "electrolyte."

II. The Phenomena at the First Surface of the Plate.

In this section we will deal with the phenomena occurring at the first surface of the "electrolyte "only.

The direction of propagation of the ray is chosen as the positive direction of the axis of z and the origin is taken indefinitely close to the interface.

The suffix 1 always refers to the dielectric and the suffix 2 to the plate.

Fig. 2.

[merged small][merged small][merged small][ocr errors][merged small]

Let X1 be the electric force in the dielectric and X, that in the plate. Under the limitations we have set ourselvesplane waves and non-conducting dielectric-Maxwell's equations assume the simple forms

[ocr errors]
[ocr errors]

dt2

dz2

[blocks in formation]
[ocr errors][merged small][merged small]

where we have abbreviated Maxwell's notation by putting

B1=μ1K1, B2=μ2K2, α2=4πμ2C2,

K2

(3)

Me being the magnetic permeability of the plate, x, its dielectric constant, C2 its conductivity; 11 are the same constants referring to the dielectric, C, being zero. As already stated,

we will only take the case of both media being non-magnetic, or

[ocr errors]

As a solution of equations (1) and (2) we select

[merged small][ocr errors][ocr errors][ocr errors][ocr errors][merged small]

where t must be not less than zero. p is either wholly imaginary or complex according as the incident ray is steady or damped: is as yet undetermined; A, is the amplitude of the incident wave-train, A of the reflected wave-train, and B of the transmitted wave-train.

Inserting the value of X, given in (4) in equation (2), and carrying out the differentiation, we get

[ocr errors]

so q is also partly imaginary.

To determine A and B

(5)

A1 we require another pair of equaA1 A1 tions. These will be given us by the interface conditions: the conditions namely, that there must be no discontinuous jump in the values of either the tangential electric force or the tangential magnetic force, at any time, in passing from the dielectric to the electrolyte. That is, we must have

where

X1=X2, dX1 dX2

=

dz dz'.

z=0, t=anything.

(6)

Inserting the values of X1 and X, in (6) we get, putting

[merged small][ocr errors]

2

A1+A1'=B2,

√ß1 (−A1+A‚')=—pqB2;

and solving these two equations for

[ocr errors][merged small]

A' B2
A1' A1'

[merged small][merged small][merged small][merged small][ocr errors][merged small][merged small][merged small][merged small][ocr errors][merged small][ocr errors][ocr errors]
[merged small][merged small][merged small][merged small][ocr errors][ocr errors][merged small][merged small][merged small][merged small][merged small]

λ contains

which is partly imaginary; so we must separate

the real and imaginary quantities and rationalize. Let P1. the real part of p, and p, the imaginary part, so that

[ocr errors]

be

and let us write

[blocks in formation]

Pa

P2

logarithmic decrement-2TP1.

and using the value of q in (5),

[merged small][merged small][merged small][merged small][merged small][merged small][merged small][merged small][merged small][merged small][merged small][ocr errors][merged small][merged small][merged small][merged small][merged small][merged small][ocr errors][merged small][merged small][merged small][merged small][ocr errors][merged small]
[blocks in formation]

We e can now proceed to rationalize the values of A

B2

A1

[merged small][merged small][ocr errors][ocr errors][merged small][merged small][merged small][merged small][merged small][merged small][merged small][merged small][merged small][ocr errors][ocr errors][merged small][merged small][merged small]
[merged small][merged small][ocr errors][ocr errors][merged small][ocr errors][merged small][merged small][merged small][merged small][merged small][ocr errors][merged small][merged small][merged small][merged small][merged small][merged small][merged small][merged small][ocr errors][merged small][merged small][merged small][merged small][merged small][merged small][merged small][merged small][merged small]

(11)

and

(12)

that is, the ray reflected from the first surface of the plate undergoes a phase-change of (-), the reduction factor or ratio of the amplitude of the reflected to that of the incident ray being

‹b= − (1+r1 — 2r2cos )

[ocr errors]

1+r2+2r cos
2

[ocr errors][merged small]
« PreviousContinue »