the change in energy is achived by a modulation of the wave?

Yes. Since speed is constant, all you can change is wavelength/frequency. If you try to add speed, you instead add energy, which increases frequency or shortens wavelength.

E = hc / λ

where

• E is photon energy
• λ is the photon’s wavelength
• c is the speed of light in vacuum
• h is the Planck constant

So is the speed of light constant because light is a particle and a wave?

Here, the ground is becoming shaky for me. You’re asking a good question; why. Maybe all we can find out is how. From what I understand, we have piles of solid evidence that the speed of light is constant. These observations confirmed a theoretical prediction made by special relativity, which can be summarized by …

treating space and time as a unified structure known as spacetime (with c relating the units of space and time), and requiring that physical theories satisfy a special symmetry called Lorentz invariance, whose mathematical formulation contains the parameter c. Lorentz invariance is an almost universal assumption for modern physical theories, such as quantum electrodynamics, quantum chromodynamics, the Standard Model of particle physics, and general relativity. As such, the parameter c is ubiquitous in modern physics, appearing in many contexts that are unrelated to light. For example, general relativity predicts that c is also the speed of gravity and of gravitational waves, and observations of gravitational waves have been consistent with this prediction.

So it seems that

• c happens to be the speed of many things, including light
• c does not depend on any characteristic of light waves or photons
• c follows from spacetime mathematics

But again, this is shaky ground for me. I’ll be happy to read corrections.