In the context of the Standard Model of particle physics, which describes the fundamental particles and their interactions, it is not possible to create any fundamental particle solely using photons (particles of light) of different energies. The reason for this is that photons are gauge bosons associated with the electromagnetic force, and they do not possess the necessary properties to form other types of fundamental particles.
The fundamental particles in the Standard Model are divided into two main categories: fermions and bosons. Fermions include quarks and leptons, which make up matter, while bosons are the force-carrying particles. Photons are an example of bosons, specifically associated with the electromagnetic force.
While photons can interact with other particles and participate in various processes, they cannot spontaneously transform into other fundamental particles. The creation of particles in the Standard Model typically involves more complex interactions and requires the involvement of other force-carrying bosons, such as the W and Z bosons (for weak interactions) or the gluons (for strong interactions). These interactions are governed by the fundamental forces described by the Standard Model.
It's worth noting that particle creation and annihilation processes can occur in high-energy particle collisions or under specific conditions, but these processes involve more than just photons. They often require a combination of various particles and their interactions within the framework of the Standard Model.