[SOLVED] Re: Article for Novices: Brane New World

[sol]

<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>http://physics.nyu.edu/people/dvali.georgi.jpg\n\nIt was important to understand the group here, and some of their\ninformation, and Georgi Dvali being part, I wanted to see what he was\ndoing last?\n\nhttp://online.itp.ucsb.edu/online/susy_c99/dvali/oh/02.html\n\n\n[Moderator\'s note: if you did not understand the purpose of this post, you\nmight be happy to hear that the moderator did not understand it either\n- but it wasn\'t quite a sufficient reason to reject the post, according\nto the charter. LM]\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">&nbsp;&nbsp;View this Usenet post in original ASCII form </a></div><P></jabberwocky>http://physics.nyu.edu/people/dvali.georgi.jpg

It was important to understand the group here, and some of their
information, and Georgi Dvali being part, I wanted to see what he was
doing last?

http://online.itp.ucsb.edu/online/susy_c99/dvali/oh/02.html


[Moderator's note: if you did not understand the purpose of this post, you
might be happy to hear that the moderator did not understand it either
- but it wasn't quite a sufficient reason to reject the post, according
to the charter. LM]

[sol]

<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>http://ls.berkeley.edu/images/news/02/ps-horava.jpg\n\nPetr Horava\n\n"String theory represents a systematic modification of general theory\nof relativity, so that it is compatible with quantum mechanics.\nTherefore, we can address some of the long-standing puzzles of quantum\ngravity in the string theoretical framework, such as the statistical\ninterpretation of the thermodynamic Bekenstein-Hawking entropy of\nblack holes. In a class of stringy black holes amenable to analysis,\nthe entropy has been explained as counting of stringy states. This\nresult further confirms that string theory is indeed on the right\ntrack to describe the microscopic physics of quantum gravity, as the\ncorrect degrees of freedom have already been identified."\n\nhttp://www.physics.berkeley.edu/research/faculty/horava.html\n\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">&nbsp;&nbsp;View this Usenet post in original ASCII form </a></div><P></jabberwocky>http://ls.berkeley.edu/images/news/02/ps-horava.jpg

Petr Horava

"String theory represents a systematic modification of general theory
of relativity, so that it is compatible with quantum mechanics.
Therefore, we can address some of the long-standing puzzles of quantum
gravity in the string theoretical framework, such as the statistical
interpretation of the thermodynamic Bekenstein-Hawking entropy of
black holes. In a class of stringy black holes amenable to analysis,
the entropy has been explained as counting of stringy states. This
result further confirms that string theory is indeed on the right
track to describe the microscopic physics of quantum gravity, as the
correct degrees of freedom have already been identified."

http://www.physics.berkeley.edu/research/faculty/horava.html