Standard Model of Particle Physics, Circa 2405 CE

The Standard Model of Particle Physics describes the elementary particles which comprise our universe, and how they are related to the fundamental forces which impact our reality. Currently, our Standard Model is comprised of Electronuclear Gravity, a theory which explains forces such as gravity, electromagnetism, and the nuclear forces, and Alterdense Theory, which describes a series of interactions which govern the disorder of the universe on a number of scales, such as entropy, universal expansion, and the flow of time and its effect on particles. The particles in the Standard Model are:   X: antiparticle of another particle whose symbol is X (note: some antiparticles have their own unique symbol) X: supersymmetric partner particle of another particle whose symbol is X (note: some supersymmetric partner particles have their own unique symbols)   dsbr | dsbr | rbsd | rbsd : these are the down type quarks, their antiquarks, and the supersymmetric squark counterparts of both   uctf | uctf | ftcu | ftcu : these are the up type quarks, their antiquarks, and the supersymmetric squark counterparts of both.   ν[e]ν[μ]ν[τ]ν[υ] | ν[e]ν[μ]ν[τ]ν[υ] | ν[υ]ν[τ]ν[μ]ν[e] | ν[υ]ν[τ]ν[μ]ν[e] : these are the neutrino leptons, their antineutrinos, and the supersymmetric slepton counterparts of both   eμτυ | eμτυ | υτμe | υτμe : these are the electron-type leptons, their antileptons, and the supersymmetric slepton counterparts of both. The four types of lepton presently discovered are the electron type, the mu type, the tau type, and the upsilon type.   g[rb]g[rg]g[bg]g[rr]g[irb]g[irg]g[ibg]g[2gg] | g[2gg]g[ibg]g[irg]g[irb]g[rr]g[bg]g[rg]g[rb] : these are the gluons and their supersymmetric gluino counterparts   mMD[N]D[S]qγqD[S]D[N]Mm | mMD[N]D[S]qγqD[S]D[N]Mm : these are the particles governing electromagnetic interactions, namely the magnetron (and Anti-Magnetron), the dyon (and anti-dyon), the chargetron (and Anti-Chargetron), and the photon, and their supersymmetric counterparts, the magnetrino, the dyino, the chargetrino (not to be confused with the chargino), and the photino.   HhAH[0]H | HH[0]AhH : the Higgs family bosons are manifestations of the Higgs field, the energy field controlling mass. There are 5 Higgs family bosons, these being: the Little Higgs (h), the Big Higgs (H[0]), the Positive Higgs (H), the Negative Higgs (H, the antiparticle of the Positive Higgs), and the Ambiguous Higgs (A).   G | G : the graviton governs gravitation, an interaction manifesting from the breakdown of Electronuclear Gravitation in environments where the Higgs field is non-zero   WZW | WZW : these particles govern the weak interaction, manifesting from the symmetry breakdown of the electroweak interaction at low (relative to the Big Bang) temperatures.   W[1]W[2]W[3]B | BW[3]W[2]W[1] : these are the particles governing the electroweak force, which only manifest at extremely high temperatures; at lower temperatures, the electroweak force fractures into the electromagnetic force (governed by the photon) and the weak force (governed by the W+,W- and Z bosons)   η | η : the Casimiron is a unique particle generated by the impact of quantum mechanical forces on macroscopic confined spaces, yielding a region of space with net negative mass. This unique property of the Casimiron is what enables modern civilization to, for instance, transfer information at effectively faster-than-light speeds using technologies like MiniWorm, and could enable faster-than-light transportation in the future.   U[R]U[G]U[B] | U[B]U[G]U[R] : the Unifyon is a family of bosons manifesting from the breakdown of Electronuclear Gravitation in environments where the Higgs field is non-zero. Comprised of particles with electronuclear numbers of equal magnitude but equidistant around a complex unit circle, the Unifyon was first predicted under Li Zhao's Electronuclear Grand Unified Theory, and was experimentally verified a few decades later in 2125 CE. Of course, the Unifyon itself breaks down for in the presence of a non-zero quark field, fracturing into the electroweak force (governed by the W[1],W[2],W[3], and B Bosons) and the strong interaction (governed by the various gluons)   E[-1]E[0]E[1/e]E[1]E[e] | E[e]E[1]E[1/e]E[0]E[-1] : the Everyon is a family of bosons serving as the origination point for all forces governed by Electronuclear Gravitation Theory. Only existing in environments where the Higgs Field is non-zero, the Everyon has an electrobarinuclear number of one of 5 values: -1, 0, 1/e, 1, and e. These values are notable because any real number can be approximated by the repeated addition or multiplication of these values between each other. As mentioned previously, the Everyon fractures in environments with a non-zero Higgs into the electronuclear force (governed by the Unifyons) and the gravitational force (governed by the Graviton).   I[1]I[2]I[3] | I[3]I[2]I[1] : the Inflaton is a family of bosons governing the Alterdense force, which existed in the very early universe immediately after the Big Bang and drove the initial expansion of the universe in that time frame. At lower energy densities the Alterdense force breaks down into the Cosmological Force (also called Dark Energetic Force or the Cosmological Constant), governed by Λ and Λ, and the Chronoentropic Force, governed by the Bradyachtropons Y[++],Y[+-]Y[-+], and Y[--].   ΛΛ | ΛΛ : the Cosmon, also called the Dark Energy Particle, is a particle-anti-particle pair governing the Cosmological Force   Y[++]Y[+-]Y[-+]Y[--] | Y[--]Y[-+]Y[+-]Y[++]: the Bradyachtropons are a set of 4 related particles governing the Chronoentropic Force, which serves to either spread out or condense energy when either going forward or backward in time. At lower energy densities, the Chronoentropic Force breaks down into the Chronological Force (governed by the Bradyon and the Tachyon) and the Entropic Force (governed by the Entropyon).   TT | TT : The Bradyon (T) and the Tachyon (T) are two particles which govern how particles interact in the dimension of time.   SS: the Entropyon and anti-Entropyon are a pair of particles governing the Entropic Force, which dictates that the entropy of a closed system increases over time.