When no fringes are present, if you lightly touch (press) the mirror on one side toward the direction of the optical axis, the brightness of the interference fringes changes drastically. Brighter interference fringes indicate that the phases of two beams match, and darker fringes indicate that the two beams diminish each other because their phases are different by half the wavelength.
When moving for half the wavelength, the brightness and darkness alternate.

If you slowly insert your hand from underneath one optical path of an interferometer, you can observe fringe deflection.
This is because the air is warmed by the temperature of the palm, changing the refractive index of the air like a heat haze.
Fringe deflection is greater near the palm due to heat dissipated from the palm.

If you tighten and slightly loosen the mirror retaining screw (set bolt) that fixes the mirror on a mirror holder of an interferometer, you can observe changes in the shape of interference fringes. When the screw is strongly tightened, the mirror is distorted by the stress, resulting in distortion of the flat surface of the reflector.
The distortion is too minute for humans to detect, but is observed as a drastic change in fringes in the interferometer.