Quick Look Up Sheet

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Formulas

Accelerators

RF/t: P=p/ε

Focus: f = f₀ - (α * (1 + |q|*sqrt(I / I_i)))*L + |q|*B_q

Particle Energy: E=E_maxS_r/15

Linear Accelerator: E_max= E₀ +|q|V

Synchrotron Accelerator: E_max=min(E_f,E_r)

Energy from dipole field: E_f=(qB_dR)²/(2m)

Energy from Radiation losses: E_r=m(3VR/|q|)^0.25

Synchrotron Port energy: E_s=E³/(2πR(1000m)³)

Decelerator Particle Energy: E=E_f(1-S_r/15)

Beam diverter, Beam splitter, Decelerator max particle energy: E_max = (qB_dR)²/(2m)

Beam diverter/splitter energy loss: E_loss= Eq²/(6m⁴R²)

Environment heating: H_e=κA(T_e-T_a)

Particle Chambers

Particle output amount: a_out=a_inaΣ

Σ=min(ση,1)

Particle output energy: E=(E₀+Q)/n

Collision Chambers

Collision energy: E_t=2(E₁E₂)^0.5

Particle output energy: E=(E_t+Q)/n

Particle output amount: a_out=amin(a₁,a₂)Σ_c

Σ_c=min(ση(1-|E₁-E₂|/(E₁+E₂)),1)

Nucleosynthesis Chamber

Heat production (H/t) = (Recipe heat*beam pu/t)/(Recipe pu)

Particles

Quarks
up_quark	down_quark	charm_quark	strange_quark	top_quark	bottom_quark
antiup_quark	antidown_quark	anticharm_quark	antistrange_quark	antitop_quark	antibottom_quark

Leptons
electron	muon	tau	electron_neutrino	muon_neutrino	tau_neutrino
positron	antimuon	antitau	electron_antineutrino	muon_antineutrino	tau_antineutrino

Bosons
photon	gluon	w_plus_boson	z_boson	higgs_boson
		w_minus_boson

Baryons
proton	neutron	delta_plus_plus	delta_minus	sigma_plus	sigma_minus
antiproton	antineutron	antidelta_plus_plus	antidelta_minus	antisigma_plus	antisigma_minus

Mesons
pion_plus	kaon_plus	eta
pion_naught	kaon_naught	eta_prime
pion_minus	antikaon_naught	charmed_eta
	kaon_minus	bottom_eta

Nuclei/Ions
deuteron	triton	helion	alpha	boron_ion
antideuteron	antitriton	antihelion	antialpha	calcium_48_ion

other
glueball