Lunar gravitational modulation of an isolated temperature sensor

During the course of my oscillator experiments, I detected periodic temperature fluctuations within the inner experiment chamber, on the scale if 0.06 degrees C.

Upon comparing these fluctuations with the lunar declination and earth rotation angle, it became clear that there are gravitationally modulated effects at play.

The image above shows relative temperature over a 30 day period in comparison to Local Apparent Sidereal Angle along the x axis, and the sine of lunar declination along the y axis. As such, it maps device temperature to a fixed stellar reference frame over the course of a one month lunar cycle.

With lunar declination between 0 and -.2, there is a clear modulation demonstrating four maxima and minima per earth rotation. These observations correlate with gravitationally induced spherical resonance modes.

Careful effort has been made to isolate the device from external thermal influence. Along with supporting data from the primary device output (D101), the conclusion is that this temperature variation is not induced by changes in ambient temperature, but by gravitational infuences.

This discovery opens up new possibilities for understanding the impact of celestial bodies on our environment and could potentially lead to advancements in the field of gravitational research.