Charles Russ : Eye Ray Detector

 
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**Charles RUSS** **Eye Ray Detector**

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**Related
: [Colin
ROSS -- Eye Ray Detector](../RossEyeRayDetector/RossEyeRayDetector.htm)**



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**[*Lancet* 201: 222-234 ( 30 July 1921 )](#lancet)**
  
 **[British Patent # 124,288 ( 24 March 1919 )](#pat)  
[*Popular Science* 
( January 1922 )](#popsci)  
[*New York Times*
( 1921 )](#NYTimes)**

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***Lancet*
201: 222-234 (30 July 1921)**

**An Instrument
which is Set in Motion by Vision or by Proximity of the
Human body**

**By Charles Russ**
  
(M.B. Lond., M.R.C.S. Eng., &c)

Although the force
or ray I am about to describe emerges from the human eye, and
is therefore physiological, the means I employ for its
demonstration involve the use of electrical and magnetic
instruments. The need for the scrutiny of experts in the
science of physics was therefore obvious. I have had the great
advantage of giving successful demonstrations of the work to
experts in physics, including 5 Fellows of the Royal Society,
besides Doctors and Bachelors of Science. None of these
physicists found any mechanical or electrical fallacy which
could account for the effects which I demonstrate as due to
human vision. They do not so far identify the ray or force as
being of a known or unknown type.

The fact that the
direct gaze or vision of one person soon becomes intolerable
to another person suggested to me that there might be a ray or
radiation issuing from the human eye. If there is such a ray
it may produce an uncomfortable effect on the other persons
retina or by collision with the other persons ray; it is a
fact that after a few seconds the vision of one or the other
will have to be turned away at least for a short time.
Numerous everyday observations and experiences seem to support
the possibility of the existence of a ray or force emitted by
the human eye, and in order to give my theory the support of
some experimental evidence I decided to dry and find or create
some instrument which should be set in motion by nothing more
than the impact of human vision.

**Description of
Apparatus**

Within a metal box
(Fig 1) I suspended a delicate solenoid made of fine copper
wire. This solenoid was wound on a cylinder of celluloid and
suspended by a silk fiber (unspun silk) 14 inches long; the
silk fiber was contained within a long glass tube mounted in
the roof of the metal box. Its upper end was attached to a
cork stopper and its lower end was furnished with a small
metal stirrup into which the solenoid could be hooked.
Attached to the stirrup was a small magnet consisting of a
short length of steel wire magnetized by a steel magnet.

The box was 3 ft by
8-1/2 inches by 7 inches and lined with sheet aluminum. The
far end of the box was closed by a sheet of window glass, and
the near or observers end, was furnished with a thin glass r
celluloid window which was also screened by a sheet of
aluminum with a slot 3 in long and 1 in wide. A conducting
wire connected the silk fiber with the aluminum of the box,
which was earthed.

![](russ1.jpg)

**Method of
Demonstration**

The solenoid was
held steady by the magnet which naturally came to rest in the
magnetic meridian (Fig 1). If the human eye looks through the
slot in the observing window and maintains a steady gaze at
one end of the solenoid the latter will be seen to start into
motion, which is usually away from the observing eye. If the
gaze be now transferred to the true center of the solenoid the
latte stops, and if the vision is now applied to the opposite
end of the solenoid the latter moves in a reverse direction to
the motion first induced. This maneuver may be repeated
several times, each subsequent attempt being made only after
the magnet has brought the solenoid to complete rest. Motion
of the solenoid, though much reduced, was also obtained after
interposing a column of water between the eye and the
solenoid.

In view of later
work it is possible that the solenoid is acting as one element
of a condenser system --- the air in the box being the
dielectric.

Early in 1918 I had
been impressed by the rapid induction of motion of the
solenoid immediately after its replacement in its box or case.
This activity soon fades to a minimal value which can always
be obtained. Thinking that such activity might be due to some
electrically charged state, I constructed some light
condensers and tested the effect of vision on them. The form
of condenser used was a celluloid cylinder having strips of
lead or aluminum foil adhesively fixed to its inner and outer
surfaces in symmetrical arrangement.

A large condenser of
this type was made, 5 in diameter, 5 in long, and weighing 10
gr. It was suspended within a glass bowl 10 in diameter by
means of a silk fiber enclosed by a glass tube closed at the
top end. The condenser was kept at rest by a small magnet
fixed above it. The glass tube and its supporting platform
formed an airtight cover to the bowl containing the condenser
(Fig 2). The bowl was lined by aluminum foil except for small
inspection areas at four diameter positions. For certain tests
glass plates were also detachably mounted in a frame around
the bowl with an air space between.

Although such a
large condenser is only slowly set in motion by the human
gaze, I decided to test the effect upon it of the body
generally, and placed my hands on the glass case. I found the
effect was much enhanced, for within about 20 seconds the
condenser was set in rotation, and such motion might amount to
45 or even 90 degree. I noticed also that after producing this
effect it only slowly returned to the zero position, in fact
the return might require half an hour.

**Time and Degree
of Reaction**

The latent period
and the degree of rotation obtained depend on the presence or
absence of the extra glass plates which latter are also
covered with foil. While producing this effect the operators
vision is assisting the rotation and also appears to determine
the direction of the movement obtained --- i.e., whether
clockwise or counterclockwise. To produce a rapidly acting
model I suspended a sheet of celluloid 2-1/2 inch by 1 inch
inside a glass beaker. The celluloid was covered with gold
leaf over an area of 2 sq in on each surface, and was
suspended by a silk fiber and furnished with a control magnet.
The glass beaker was covered inside and outside by aluminum
foil except for inspection windows. If two fingers are placed
on the vessel for two or three seconds then removed the card
is seen to rotate towards the side of the hand used to touch
the vessel wall.

**Possible
Influence of Heat**

At this point I will
deal with the obvious possibility of heat being the cause of
the motions described. Heat from the hands and body proximity
is, of course, reaching the apparatus, and we know the
delicacy of the heat-recording instruments at the command of
the science of physics. I did not attempt to measure this
heat, to measure this heat, but decided to apply heat to my
apparatus. The results are shown in the following table, and I
think the inference is that heat is inadequate to explain the
effects observed. I found the effects much reduced, though not
abolished, after surrounding the condenser by a jacket of
water, paraffin, or methylated spirit.

Heating experiments
of the cases containing the condensers were undertaken in two
ways: (1) radiant heat from one or two candles 3 inches from
the glass plates surrounding the large condenser (Fig 2) were
almost entirely negative up to periods of six minutes; (2)
Water heated to the temperatures shown in the table was placed
in metal vessels against the glass plates, which were covered
also with metal strips and areas of contact arranged were
several times as large as the contact area of the human
fingers.

After placing the
hands on the metal area of the guard plates the condenser
moves after 30 seconds and usually travels through from 10 to
15 degrees within two minutes. In the hot-water experiments
there was no vision applied.

![](russ2.jpg)

**Hot Water in
Metal Vessels on Sides of Case**

![](table1.jpg)

**Effects of Vision
Alone**

*Glass Rod Method*--- Remembering the activity referred to when replacing
the coils and condensers in their cases, I decided to try the
effects of charging them electrically by induction. If a glass
rod rubbed with silk approaches the glass case (Fig 3) the
condenser goes into rotary motion, and when this has ceased it
comes to rest in the magnetic meridian.

It is now sensitive
to vision, and may, therefore, not be looked at until it has
come to rest. This moment may be ascertained by a glance at
its reflected image in a mirror 10 feet away. When at rest its
sensitiveness to vision only lasts about 30 seconds, depending
on the force of the initial swing given by the rods approach.
If the eye looks through the fluid and slot at the optimum
period it will see the condenser go into active rotation which
may amount to 30 or 45 degrees. The sensitiveness is brief and
can only be renewed by recharging with glass rods.

This method is one I
used at first, but it is difficult and not quite satisfactory
when demonstration to others; I have therefore improved upon
it.

*Spot of Light
Method ---* A small mirror is fixed to the stirrup on
the end of the silk fiber. This mirror moves with the stirrup
and its attached condenser. Light from a lamp near by falls on
the mirror and is reflected on to a scale (as in the
reflecting galvanometer). This is a very good method of
proving that the condenser (set in motion by the induced
electric charge) has come to rest. The spot of light is seen
to move off rapidly as the electric charge is induced and its
to-and-fro movement can be continuously observed on the scale
without the eyes being directed at the condenser. When the
spot of light has been seen to come to rest it will be found
that human vision now directed at the condenser sets it,
together with the spot of light, into rapid motion, which may
be so large as to take the latter quickly off the scale.
Special; caution is, however, needed in connection with this
method, for I failed repeatedly in trying to use until I had
noticed that no light from the lamp must be allowed to fall on
the condenser. This is easily managed by interposing a screen
of black paper or the equivalent between the lamp and the
condenser. The little mirror in the stirrup is above the level
of the condenser, and the small beam needed to give the spot
of light is easily provided and focused by means of a lens if
desired.

*Charge Plates
Method ---*

In Fig 3 the method
is shown. Two metal plates are embedded in blocks of sulfur
and mounted by the sides of the instrument. One is connected
to the outer coating of a Leyden jar and is also connected to
earth. The other plate embedded in the insulating sulfur is
connected to the inner coating of the jar by a spring or chain
and cap contact with the knob of the jar. The Leyden jar is
charged by contact with an electrical friction machine giving
several thousand volts. At the moment of applying this
electrical pressure to the plates the condenser goes into
active rotation. After a moderate charge from the Leyden jar
this swing subsides and the condenser will be held for some
minutes with its axis at right angles to the meridian. In this
case the electric stress overpowers the magnetic pull. If the
operator now looks into the open end of the condenser he will
see its movement through 20-30 degrees; when the eyes are
closed it returns to iis former position. Note must be made of
the direction it takes. We know that left to itself the south
end of the magnet will slowly turn towards the earths south
pole as the electric stress fades. If vision of the operator
causes the south end of the magnet to go towards the earths
north pole. I call it an anti-magnetic effect. If, however,
his vision causes the reverse motion it has the same value as
an effect provided it is found on removing the force (closing
his eyes) that the condenser (and of course its attached
magnet) returns to the stressed position at right angles to
the meridian.

An important point
must be made of the primary swing. It is vital to the
production of the sensitiveness to vision of the condenser. If
for any reason there is no swing there will be no movement
after vision is applied. In case the swing was operating by
making in its passage through the air in the vessel a
frictional charge on the condenser. I tested the matter
another way. Taking a bar magnet and moving it round the glass
case one makes the control magnet in the stirrup swing, and of
course its attached condenser also swings. In this way no
electric batteries or rods are used to set up the primary
swing. The effect of sensitiveness to vision is still
observable, though I think less actively than when using the
Leyden jar method; but the experiment serves to emphasize the
need of the swing and perhaps to throw light on the true
nature of the vision effects. If repeated observations are
made involving frequent charging of the plates the motion of
the condenser becomes lazy under the static charge, but
recovers after a little rest.

The electric charge
will only hold for a few minutes on the jar and plates in damp
weather. If dry conditions exist many vision effects may be
obtained from only one charge. If, after charging, the
condenser having come to rest, one discharges the jar by the
insulated tongs, the condenser will show a rapid swing at the
moment of electric discharge from the jar. By means of an
accumulator and coil and spark gap I have tried to maintain
the charge on the jar, so far with moderate success. As yet it
is not easy to keep the condenser quite still, but when the
apparatus is improved it will become independent of the
humidity factor.

![](russ3.jpg)

**Controls and
Precautions**

This system of the
stressed plates is an extremely sensitive indicator of an
electrostatic change. The operator must be still and seated
behind a glass or celluloid screen so that no water vapor from
nose or mouth can reach the glass case. His eyes are closed
and no movements of limbs or other objects must disturb the
vicinity of the electric field. When told by the assistant (or
seeing by the spot of light) that condenser is at rest, he
will look at it and perceive that his vision has set it in
motion, which can be measured on the scale. If the eyes are
not opened or only the hand has been kept in the operating
position there will be no effect. There must, of course, be no
vibration of the room by traffic, or any mechanical
disturbance of the supporting bench.

**Darkness Tests**

I did four tests
which seemed to give a positive result, but many more such
tests would be required before a decision could be made on
this point.

**Probable Nature
of the Effect**

There is an
electrical change in the retina accompanying vision. There are
also the electric changes in muscles when in action, and these
will have associated electric fields. The eye muscles include
the ciliary and iris and the oculomotor group. Whether the
fields from these sources are adequate to account for the
effect cannot be answered at present.

*Heat ---* Besides
the evidence in the table the arrangements in Fig 3 probably
exclude htis agency as a cause of the movement obtained.

*Electrostatic
Force ---* A force of this type cannot pass a fine
metallic grid, and may therefore be considered unlikely to
produce the activity obtained

*Electromagnetic
Force ---* This group of vibrations includes a large
number of rays ranging from the x-ray to the wireless waves.
The influence of light from the lamp seems suggestive of an
influence of this type, but no critical tests have done on
these lines.

**Summary**

Human vision can
disturb the electrostatic state of an enclosed system. After
the condenser has come to rest there must still exist a
turbulence described. This turbulence appears to be reinforced
or amplified by the applied vision, and is shown by (1) the
activity shown by opening and closing the container; (2) the
activity after rotating the condenser by the bar magnet; (3)
the activity following the slight heating of the medium by the
fingers on the guard plates; (4) the activity shown during the
fading guard plates. Of course, at the time of operating these
instruments by any use of the above methods the turbulence is
not sufficient to cause motion --- i.e., the condenser has
come to rest. Since the particles of any gas are always in
motion it is probable that the effects of vision are only
produceable when the turbulence of the medium is critical ---
i.e., of a certain intensity. If the turbulence has fallen
below this degree the activity to vision is lost. This latter
point is shown by the fact that activity to vision is lost
long before the sparking power has disappeared from the Leyden
jar (Fig 4).

![](russ4.jpg)

I do not propose to
say more at present as to the probable nature of the force
accompanying the act of human vision of which these
experiments are the evidence. Instead I restrict the claim of
my work to our possession of the instrument which affords the
evidence of the force, and which is the limit of the title of
this article. The only reference in the literature I have met
was mentioned to me by a friend in 1919. It is a destructive
criticism by Lord Kelvin of the word, by a French physicist on
the Supposed New Force. After reading Lord Kelvins paper one
must, I think endorse his view that the author failed to
establish his views, as he would not even enclose his
instruments to meet the objection of air or heat currents.

During the course of
this work, which  has occupied spare time since December
1917, I have had the advantage of criticism and suggestions by
my brother Prof Sydney Russ, Prof A. Porter, FRS, Prof
Rankine, and others as to the physical aspects of my
experimental arrangements.

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 **British Patent # 124,288**

**( 24 March 1919
)**

**An
Instrument Set in Motion and whose Motion is Controlled
by the Human Eye, i.e., by Vision**

This invention
consists in an instrument which is set in motion and whose
motion is controlled by the human eye, i.e., by vision.

The instrument is
the practical embodiment determined by the results of
experiments which have made to ascertain whether there is a
ray or radiation proceeding from the human eye.

To this end a
delicate solenoid of metallic wire is lightly suspended in the
vicinity of two charged insulated electrical conductors and
such solenoid can be set in motion and its motion controlled
by the vision of one or both eyes directed at one or the other
extremity of the solenoid. In an alternative construction, the
solenoid may also be arranged as one of the electrodes (a
movable terminal). The same effect is produced by arranging
the solenoid in the vicinity of a magnet or electromagnet.

In a further
modification the solenoid is suspended within the field of
another solenoid and the same effect is produced.

I have also been
able to produce the motion of the solenoid by directing the
vision at the solenoid through glass or celluloid.

The annexed drawing
illustrates an example of construction of the instrument.

![](russpat1.jpg)

Within a metal or
glass case a (or other draught proof device) I suspend a
solenoid b of fine copper or thin iron wire by means of a silk
thread or slender metallic cord or chain c. This solenoid
hangs over but does not touch, a metallic disc d raised and
electrically insulated from the floor e of the case.

An electrically
insulated wire f is connected to the solenoid and another g to
the disc, and by means of a battery h or other source of
electric energy, each of them is electrically (statically
charged. In this way, the air space between the solenoid b and
disc d is in a state of electric stress, which is never great
enough for a discharge (or spark) to take place. To this
stressed zone the human eye will direct its vision and then
the solenoid previously stationary will begin to move in a
plane at right angles to its suspending fiber. This effect is
best produced by directing the vision of one or both eyes at
the one extreme end of the solenoid, and by steady gaze to
follow in changing focus its steady motion. The reverse motion
will be produced by transfer of the vision to the opposite end
of the solenoid.

The foregoing is,
however, only one method of producing the effect. The
following are various modifications.

(A) The solenoid may
be uncharged electrically if it is suspended by a
non-conducting (i.e., an unsilvered) thread or fiber between
two electrically charged discs, so as to hang within the zone
of electric stress. It will move as described by vision
directed upon it.

(B) The solenoid may
be suspended within the field of a permanent or electromagnet.

(C) If the materials
of the apparatus --- glass of the case --- solenoid and fiber
are made sufficiently delicate, and draught, and forces such
as heat from any lamps, extraneous to the apparatus are
rigidly excluded, then there is no need for any electrical or
magnetic force to be used. That is, the human eye is able to
initiate and maintain --- up to fatigue point --- a small but
definite motion upon a solenoid.

With all of the
foregoing I use an enclosing case of metal or glass. If metal,
the case is furnished with glass or celluloid windows which
the vision traverses to produce the effect.

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**Popular Science ( January 1922 )**![](RussPopSci.jpg)  


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## *New York Times* ( 1921 )

## FINDS A NEW FORCE IN THE HUMAN EYE



English Scientist Demonstrates Invention Which
Registers the Power in a Glance.



**DISTINCT FROM OCCULTISM**



Dr. Charles Russ Tells Oxford Congress Optical
Influence Is Akin to Heat and Light.



Copyright, 1921, by The New York Times Company. Special
Cable to THE NEW YORK TIMES.



LONDON. July 8.A
new physiological force has been discovered after three years
of patient research by Dr. Charles Russ M.B., M.R.C.S.,
L.R.C.P., who has invented an instrument which shows that
there lies in the human eye certain definite power which is
quite distinct from the supposititious influences of will
power or occultism. This was the announcement made today at a
meeting of the Oxford, Ophthalmological Congress.



All literature
regarding eyes in a fine frenzy, rolling or darting glances of
compelling love, or quelling by a look the blood-thirsty
villain or the savage beast, will now have to undergo
scientific revision.



Poetry and romance
have been full of the power of the eye. That there is a
scientific basis for belief in that power has now been proved
indisputably, according to the report made to the
Ophthalmological Congress and supported by an actual
demonstration.



Dr. Russ, who is an
electrician as well as medical man, has given all his spare
time during the last three years to experimenting on the
theory that the human eye gave forth some ray or radiation
which was a distinct influence, something different from
anything hitherto observed by physiologists, a force that
might possibly have some analogy to light or heat.



**Powerful
Eyes in History**  
Dr. Russ often wondered, to quote his own words, if it were
not true that some force or ray or invisible searchlight were
not pouring out from the eye some force which might account
for those delightful sensations of the Romeo and Juliet type
of vision or, on the other hand, for the sinister power that
the glances of Nero or Napoleon must have conveyed.



His various
experiments culminated in the idea of a brass cylinder in
which he hung a delicate spiral of fine copper wire. This
solenoid was wound upon a cylinder of celluloid and was
suspended by a fiber of unspun silk contained within a long
glass tube. A small magnet held the solenoid in position, and
the apparatus was electrically earthed by a connective wire.



Dr. Russ observed
that if he gazed steadily through the window slot at one end
of the suspended body it would start into motion away from his
observing eye. When he looked at the true centre it stopped,
and if he gazed at the opposite end. it moved in the reverse
direction.



**Denies Any
Occultism**  
Dr. Russ deprecates any suggestion that these results are
connected with any so-called function of telepathy. No
scientific instrument exists which can record telepathic
influence, or, in other words, the passage of a thought ray,
and even in regard, to hypnotism, which is a recognized
medical fact, there is no instrument capable of indicating the
hypnotic state either in the operator or in the subject.



By the instrument
which he had invented Dr. Russ claims that the influence
exerted by the human eye can be and is actually registered. To
put it in another way. Dr. Russ asserts that when one person
looks at another there is an actual transmission of power.
This power, or force, or influence, is susceptible of
measurement by his apparatus.



Various methods have
been employed by Dr. Russ and other scientists to test the
apparatus and eliminate the possibility of the movements in
the solenoid being due to heat or the vibration of air
currents, or any other accidental condition.



Dr. Russs discovery
is still in its embryonic stage. Its application has as yet
hardly been considered, but just as the telephone and the
gramophone developed out of the knowledge that sound caused
the vibration of matter, so it is contended it is possible
that science may find the means of putting to practical usage
this hitherto unknown force that resides in the eye.




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