New form of dynamics and current algebra

We study a new form of dynamical system, in which the commutation relations for the dynamical variables of a quantized field are defined on a "lightlike surface" 7 3 (t + z)/1/2 = 0 rather than at one instant of time t = 0. We clarify the physical implications of the use of the new variables x1 = x, xa = y, x+ = (t + z)/1/2, x-= (t -z)/z/Z and explore its significance as a new form of relativistic dynamics, which holds in any Lorentz frame but not in the so-called"inlinite momentum frame." Using the quark model, we build up a new algebra of currents, in which the current commutators are dehned at equal 7. The sum rules and other results of the usual current algebra can be obtained without taking the unjustifiable limit of infinite momentum. In particular, we obtain the Gell-Mann-Gkubo mass formulas in quadratic form for both mesons and baryons without the trouble due to momentum dependence. We derive the reduction formula and find the physical high energy limit (not the Bjorken limit) of an amplitude is determined by the equal 7 commutator.