beacon
May23-05, 04:01 PM
<jabberwocky><div class="vbmenu_control"><a href="jabberwocky:;" onClick="newWindow=window.open('','usenetCode','toolbar=no, location=no,scrollbars=yes,resizable=yes,status=no ,width=650,height=400'); newWindow.document.write('<HTML><HEAD><TITLE>Usenet ASCII</TITLE></HEAD><BODY topmargin=0 leftmargin=0 BGCOLOR=#F1F1F1><table border=0 width=625><td bgcolor=midnightblue><font color=#F1F1F1>This Usenet message\'s original ASCII form: </font></td></tr><tr><td width=449><br><br><font face=courier><UL><PRE>For a Lagrangina, we can perform the one loop calculations and\nrenormalization to get the one loop results. If we have the one-loop\neffective potential, can we perform tree level calculations with this\npotential to get the same loop results in the original theory?\nI think we still have to do one loop calculation with the effective\npotential to get one-loop results of the original theory. Is this\nright?\n\n</UL></PRE></font></td></tr></table></BODY><HTML>');"> <IMG SRC=/images/buttons/ip.gif BORDER=0 ALIGN=CENTER ALT="View this Usenet post in original ASCII form"> View this Usenet post in original ASCII form </a></div><P></jabberwocky>For a Lagrangina, we can perform the one loop calculations and
renormalization to get the one loop results. If we have the one-loop
effective potential, can we perform tree level calculations with this
potential to get the same loop results in the original theory?
I think we still have to do one loop calculation with the effective
potential to get one-loop results of the original theory. Is this
right?
renormalization to get the one loop results. If we have the one-loop
effective potential, can we perform tree level calculations with this
potential to get the same loop results in the original theory?
I think we still have to do one loop calculation with the effective
potential to get one-loop results of the original theory. Is this
right?