ELECTRON THERAPY RESEARCH
by John Crane
This report on Electron Therapy is primarily concerned with the detection and
cure of cancer and related diseases. It
is presented for research only.
It is a matter of record that, while orthodox medical and surgical methods have
had limited success with cancer
discovered in the early stage, they have had little or no success with treatment
of the more advanced cases. The
cause of cancer is still listed in some of the current medical textbooks as
unknown.
Since research to determine the cause and effect a cure of cancer is being
carried out in many and various directions, it seems reasonable to explore every possible avenue toward a true
understanding of the cause of cancer
and hence, its proper treatment
This report concerns itself with the discovery of a virus causing cancer and a
method of treatment which excited
considerable interest among reputable doctors and laboratory specialists as long
ago as 1934. This theory has stood
up under hundreds of controlled laboratory tests and has been applied to treat
human cancer in dozens of cases.
Rife Virus Microscope Institute, in conjunction with various doctors throughout
the United States and Canada, is at
the present time (1960-ed.) engaged in carrying out a controlled series of tests
in order to re-establish the finding of
Dr. Royal R. Rife in his life study of the cause and cure of cancer.
Dr. Royal Raymond Rife first conceived the idea of the Frequency Instrument in
conjunction with his work in developing the Rife Universal Microscope. Since the determining of the cancer
requires the high power of the Rife
Microscope, a brief description of the construction and theory of operation of
the Rife Microscope will be included in
this report.
THE UNIVERSAL MICROSCOPE
Dr. Royal R. Rife over a period of 30 years designed and built in his own
laboratory five microscopes of power and
resolution far beyond the so-called law of optical physics. In their power
magnification these instruments vary from
9,000 to 50,000 times, far beyond the limits of the standard research
instrument. The commercial microscope being
manufactured today is inadequate for the observation of filterable viruses of
disease (as these minute, live, living
entities are less that 1/20 of one micron in dimension). Thus the need for a
device which would carry us farther into
this important field of endeavor. We will describe in some detail the most
powerful of these microscopes, known as
the Universal Microscope.
The Universal Microscope, which is the largest and most powerful of the light
microscopes, developed in 1933, consists of 5,682 parts.
This microscope derives its name from its adaptability to all fields of
microscopical work. The microscope is fully
equipped with separate substage condenser units for transmitted and mono
chromatic beam, darkfield, polarized, and
slit-ultra illumination, and includes a special device for crystallography. The
entire optical system of lenses and
prisms as well as the illuminating units are made of block-crystal quartz.
The illuminating unit used for the examination of the filterable form of disease
organisms contains 14 lenses and
prisms, three of which are in the hi-intensity incandescent lamp, four in the
Risley prism, and seven in the achromatic condenser system. Two circular, wedge-shaped prisms are suspended
between the source of light and
the specimen being examined. The two prisms are used for changing the angle of
incidence of the light passing
through the specimen being examined. When the light passes through these prisms,
it is divided or split into two
beams, one of which is refracted to such an extent that it is reflected to the
side of the prism while the second
beam is permitted to pass through the prism and illuminate the specimen owing to
its chemical constituents.
The mounting arrangement on the Universal Microscope permits each of the two
prisms to be rotated in opposite
directions by a vernier control throughout 360 degrees. This vernier adjustment
permits bending the transmitted
beam of light at variable angles of incidence while, at the same time, a small
portion of the spectrum is projected
into the axis of the microscope owing to the chemical constituents of the
microorganism. The vernier adjustment
permits only a small portion of the spectrum to be visible at any one time, but
it is possible to select any portion
from one end of the spectrum to the other. When that portion of the spectrum is
reached where both the organism
and the color band vibrate in exact accord, a definite characteristic spectrum
is emitted by the organism.
PRINCIPLE OF PARALLEL RAYS
In the case of the filter-passing form of the Bacillus Typhosus, a turquoise
blue color is emitted and the plane of
polarization deviated plus 4.8 degrees. The predominating chemical constituents
of the organism are next ascertained after which the quartz prisms are adjusted by means of the vernier
control to minus 4.8 degrees so the
opposite angle of refraction may be obtained. A monochromatic beam of light
corresponding exactly to the frequency
of the organism is then passed through the specimen along with the direct
transmitted light. This beam permits the
observer to view the organism stained in its true chemical color and reveals its
own individual structure in a field
which is brilliant with light.
The rays of light refracted by the specimen enter the objective lens and are
carried up the tube in parallel rays
through twenty-one light bends to the ocular lens. A tolerance of less that one
wave length of visible light is
permitted in the core beam of illumination. Iii the standard optical microscope,
the light rays tend to converge as
they rise higher and finally cross each other, arriving at the ocular lens,
separated by a considerable distance.
This microscope derives its name from its adaptability to all fields of
microscopical work. The microscope is fully
equipped with separate substage condenser units for transmitted and mono
chromatic beam, darkfield, polarized, and
slit-ultra illumination, and includes a special device for crystallography. The
entire optical system of lenses and
prisms as well as the illuminating units are made of block-crystal quartz.
The illuminating unit used for the examination of the filterable form of disease
organisms contains 14 lenses and
prisms, three of which are in the hi-intensity incandescent lamp, four in the
Risley prism, and seven in the achromatic condenser system. Two circular, wedge-shaped prisms are suspended
between the source of light and
the specimen being examined. The two prisms are used for changing the angle of
incidence of the light passing
through the specimen being examined. When the light passes through these prisms,
it is divided or split into two
beams, one of which is refracted to such an extent that it is reflected to the
side of the prism while the second
beam is permitted to pass through the prism and illuminate the specimen owing to
its chemical constituents.
The mounting arrangement on the Universal Microscope permits each of the two
prisms to be rotated in opposite
directions by a vernier control throughout 360 degrees. This vernier adjustment
permits bending the transmitted
beam of light at variable angles of incidence while, at the same time, a small
portion of the spectrum is projected
into the axis of the microscope owing to the chemical constituents of the
microorganism. The vernier adjustment
permits only a small portion of the spectrum to be visible at any one time, but
it is possible to select any portion
from one end of the spectrum to the other. When that portion of the spectrum is
reached where both the organism
and the color band vibrate in exact accord, a definite characteristic spectrum
is emitted by the organism.
The Rife microscopes, as the rays are about to cross each other, a specially
designed quartz prism is inserted which
serves to separate the light rays to a near parallel line again. Additional
prisms are inserted each time the rays are
ready to cross.
These prisms, located in the tube, are adjusted and held in alignment by
micrometer? screws in special tracks made
of magnelium a metal having the closest expansion coefficient of any metal to
quartz. These prisms are separated by
a distance of only 30 millimeters. Thus, the greatest distance that the image in
the Universal Microscope is projected
through any one media, either quartz or air, is 30 millimeters instead of the
160 to 190 millimeters employed in the
air-filled type of the ordinary microscope.
It is this principle of parallel rays used in the Universal Microscope and the
resultant shortening of projection distance between any two blocks or prisms plus the fact that objective lenses
can thus be substitutes for oculars,
(these oculars being three matched pairs of lO-mm, 7-mm and 4-mm objectives in
short mounts) which make possible
not only the unusually high magnification and resolution but which serve to
eliminate virtually all chromatic and
spherical aberration.
The universal stage is a double rotating stage graduated through 360 degrees in
quarter-minute arc divisions. The
upper segment carries the mechanical stage having a movement of 40 degrees, and
the body assembly which can
move horizontally over the condenser and provide an angular tilt of 40 degrees +
or -.
The microscope stands 24 inches high and weighs 200 pounds. The base is composed
of cast nickel-steel plate,
accurately surfaced and equipped with three leveling screws and two spirit
levels set at 90 degrees. The course
adjustment, a clock thread screw with 40 threads to the inch, slides in a 11/4
dovetail which gibs directly onto the
pillar post. The stage, in conjunction with a hydraulic lift, acts as a lever in
operating the fine adjustment.
A 6-guage screw, having 100 threads to the inch, is worked through a gland into
a hollow glycerine-filled post, the
glycerine being displaced and replaced at will as the screw is turned clockwise
or counterclockwise allowing a 5 to 1
ratio on the lead screw. This hydraulic action assures complete absence of drag
or inertia.
The fine adjustment being 700 times wore sensitive than the ordinary
microscopes, requires a length of time from
ten minutes to one-half hour to focus. This time at first glance seems a
disadvantage, but it is felt that, for the
overall results obtained, the time required is only a slight inconvenience
compared to the many years' research and
the actual results obtained in isolating and looking upon disease-causing
organisms in their true form (to be
continued)
A 45 minute video (VHS) of Royal Raymond Rife in his laboratory is available
from BSRF and this tape shows the inflicting of cancer in laboratory mice, their cure with Rife's ray tube
frequency instruments. It is transferred from a
16mm film and is narrated by John Crane. This film is proof that the cure for
cancer (one of many) has been covered
up!
John Crane can be contacted at 4246 Pepper Drive; San Diego, CA 92105. He is
dedicated to preserving and promoting the work of Royal Raymond Rife and the Rife Virus microscope
Institute.
-End