#
# arev:/usr/local/unicat/unireq/beamreq/req00132.txt
# UNICAT Member Beam Time Request  #132

# created Mon Sep 11 14:56:22 CDT 2000
#

collaboration:
	No

collaborator+Paul:
	on

contact:
	salamon@uiuc.edu

days:
	5

description:
	The interplay between magnetism and superconductivity has emerged as 
	one of the key problems in condensed matter physics. Nowhere is this 
	competition more apparent than in the series of rare-earth nickel 
	borocarbides having the chemical formula RNi_2B_2C. When R is a non-
	magnetic rare-earth element such as Lu, the superconducting transition
	is 16 K. Even with magnetic elements, Tc remains rather high: 10.5 K 
	for Er, 8 K for Ho, and 6.1 K for Dy. Surprisingly, the Tb analog, 
	which has the highest Neel temperature of the series T_N = 15 K, 
	shows no superconducting transition. Of these compounds, only Dy 
	(excluding Tb, of course) has T_N = 10.6 K Tc. Recently, mixed rare-
	earth substitutions have been studied [1], and their structure is the
	subject of this proposal. We focus here on Dy1-xTbxNi2B2C. For x = 0,
	 neutron powder diffraction [2] has shown that the Dy moments order as 
	an A-type antiferromagnet, with ferromagnetic sheets of spins in the 
	a-b plane oriented along <110 directions and alternating along c. At 
	x =1, the Tb spins form a longitudinal spin-density wave (SDW) with q = 0.55a*, with antiferromagnetic stacking along the c-axis. It is tempting to assign the absence of superconductivity to the existence of the SDW, except that the Er analog has a transverse SDW with essentially the same wavevector, but exhibits a robust superconducting transition temperature. As Tb is substituted for Dy, the superconduct ing transition decreases rapidly, but TN remains essentially constant, in defiance of the increasing deGennes factor. The superconducting transition temperature extrapolates to zero at x = 0.6, and at that point the Neel temperature begins to rise toward 15 K at x = 1. It has been argued that each Ni atom in the Dy analog is surrounded by nearest neighbors whose net spin adds to zero, while no such cancellation occurs for the SDW state of the Tb version. For this to hold in the mixed crystal, there must be some coexistence of SDW and AF ordering, or at least short-range SDW correlations. 
	We propose here to use resonant x-ray scattering to examine the 
	ordering characteristics of mixed Dy-Tb crystals in the low 
	concentration range (near x = 0.2) where there is significant 
	suppression of Tc, and near x = 0.6, where the rising Neel temperature
	suggests the emergence of SDW order. Magnetic x-rays scattering offers
	 the opportunity to examine single crystal samples (typically of 
	millimeter dimensions) without the need to use ^11B substitution as 
	required for neutron scattering. We have the added advantage of 
	examining the degree of ordering of Dy and Tb moments separately. 
	Magnetic x-ray scattering has been applied to the Nd, Sm and Gd analog
	s of these materials previously with great success.[3] Samples have 
	been prepared at Pohang University, and were fully characterized 
	there. Samples of several concentrations will be available for this 
	initial run, with other concentrations to be supplied for later 
	experiments. The experiment will require the use of the Displex
	and eventually the Heliplex and the UIUC Polarimeter. Appropriate 
	analyzer crystals for Dy and Tb are available for polarization 
	analysis, if required to separate dipole and quadrupole contributions.
	 
	1. B.K. Cho, P.C. Canfield, and D.C. Johnson, Phys. Rev. Lett. 77, 
	163 (1996); H. Doh, M. Sigrist, B.K.Cho, and S-I. Lee, Phys. Rev. 
	Lett. (in press. 
	2. 2. S. K. Skanthakumar and J. W. Lynn, Physica B 259-261, 576 (1999). 
	3. 3. C. Detlefs, et al., Phys. Rev. B 53, 6355 (1996); ibid. 55, R680
	 (1997). 
	

equipment+required:
	Displex
	UI Polarimeter

experiment:
	Magnetic x-ray study of Neel order in (Dy-Tb)Ni2B2C

foreign+nationals:
	Sung-ik Lee (Korea)

hazards:
	None

name:
	Myron Salamon

nonmembers:
	Sung-Ik Lee, Pohang University (APS Agreement in place)

station:
	33ID-D

unacceptable+dates:
	November 10-12, November 19-26
	Thursday through Monday preferred (teaching schedule) but not required.
	



#QUERY_STRING: 
#REMOTE_HOST: salamon.mrl.uiuc.edu
#REMOTE_ADDR: 130.126.103.14
#CONTENT_LENGTH: 4423
#HTTP_REFERER: http://www.uni.aps.anl.gov/unireq.htm
#HTTP_USER_AGENT: Mozilla/4.72 [en] (WinNT; U)