PASCO OS-9257A PRECISION INTERFEROMETER User Manual

Precision Interferometer

012-07137A

10

Sources of Experimental Error

Backlash— Although PASCO's carefully designed

mirror movement reduces backlash considerably, every

mechanical system is susceptible to backlash. However,

the effects of backlash can be practically eliminated by

using proper technique when counting fringes (see item 3

under Accurate Fringe-Counting, on the previous page).
Mirror Travel— The amount of mirror movement per

dial turn of the micrometer is constant to within 1.5%.

Most of this error occurs at the extreme ends of the

mirror’s total possible movement. For very accurate

measurements, see Calibrating the Micrometer, above,

and remember that the mirrors are flat to within 1/4

wavelength across their surface.

Troubleshooting

If you have trouble producing a clear set of interference

fringes, consider the following possible sources of diffi-

culty:

1.

Warm up your Laser— Many lasers vary in intensity

and/or polarization as they warm up. To eliminate any

possible fringe or intensity variations, allow the laser to

warm up prior to setting up an experiment. (The

PASCO laser should warm up in about 1 hour.)

2.

Check your Mirrors— The beam-splitter and

movable mirror are carefully mounted in their brackets

to remain perpendicular to the interferometer base

when set up. If the brackets are bent slightly out of

alignment, the resulting fringe patterns will be distorted

somewhat. If they are significantly out of alignment, it

may be impossible to obtain fringes.

3.

Background Fringes— Reflections from the front

and back surfaces of the mirrors and beam-splitter of-

ten cause minor interference patterns in the back-

ground of the main fringe pattern. These background

patterns normally do not move when the mirror is

moved, and have no impact on measurements made

using the main interference pattern.

4.

Convection Currents— If the fringe pattern ap-

pears to wave or vibrate, check for air currents. Even

a slight breeze can effect the fringes.

5.

Vibration— Under normal conditions, the

interferometer base and mirror mounts are stable

enough to provide a vibration free setup. However, if

the experiment table is vibrating sufficiently, it will

effect the interference pattern.

ä IMPORTANT: If the movable mirror doesn't

move when you turn the micrometer dial, see

Micrometer Spacer Replacement in the

Maintenance section at the end of this manual.

Component Specifications

Interferometer Mirrors— 3.175 cm in diameter;

0.635 + 0.012 cm thick; flat to 1/4 wavelength on both

sides; coated on one side for 80% reflectance and 20%

transmission.
Beam-Splitter— 3.175 cm in diameter; 0.635 + 0.012 cm

thick; flat to 1/4 wavelength on both sides; coated on one

side for 50% reflectance and 50% transmission.
Compensator— Identical to the beam-splitter, but

uncoated.
Movable Mirror— movement is controlled by the

micrometer that is built-into the interferometer base;

turning the dial clockwise moves the mirror toward the

right (looking from the micrometer side); 25 microns per

micrometer dial revolution (±1% near center of move-

ment); movement through full distance of travel is linear to

within 1.5%.

ä IMPORTANT: Avoid touching all mirror

surfaces. Minute scratches and dirt can impair the

clarity of interference images. See the Maintenance

section at the end of this manual for cleaning

instructions.