X-ray porosimetry: a new method for the characterization of porous low-dielectric-constant thin films adaptable for the semiconductor industry. (General Developments).NIST (National Institute of Standards & Technology, Washington, DC, www.nist.gov) The standards-defining agency of the U.S. government, formerly the National Bureau of Standards. It is one of three agencies that fall under the Technology Administration (www.technology. scientists have developed a new measurement method--x-ray porosimetry (XRP XRP Extended Resource Planning (Cambridge) XRP X-Ray Polychromator XRP Riviere-A-Pierre, Quebec, Canada - Riviere A Pierre / via Rail Service (Airport Code) )--for characterization of porous low-dielectric-constant (low-k) films. The method has application to the semiconductor industry in their pursuit of new interlayer Noun 1. interlayer - a layer placed between other layers layer, bed - single thickness of usually some homogeneous substance; "slices of hard-boiled egg on a bed of spinach" materials with low dielectric constants to reduce cross-talk and to increase processor speed as device features reach nanometer sizes. While candidate materials differ in their base chemistries, a common theme emerges in the push to develop low-k dielectric dielectric (dī'ĭlĕk`trĭk), material that does not conduct electricity readily, i.e., an insulator (see insulation). A good dielectric should also have other properties: It must resist breakdown under high voltages; it should not materials--nano-scale porosity must be introduced in a controlled manner to further reduce the dielectric constant. Measurement techniques are needed to accurately and noninvasively characterize the porosity in these films while attached on a silicon substrate. Over the past several years, NIST scientists in the Polymers Division and at the Center for Neutron Research have successfully addressed these needs through the development of a methodology based upon x-ray reflectivity re·flec·tiv·i·ty n. pl. re·flec·tiv·i·ties 1. The quality of being reflective. 2. The ability to reflect. 3. (XR), small angle neutron scattering The term "Neutron Scattering" encompasses all scientific techniques whereby the deflection of neutron radiation is used as a scientific probe. It falls into two basic categories - elastic and inelastic scattering. , an d ion scattering. However, these measurements require specialized facilities not readily accessible to industrial laboratories. In contrast, the new method requires x-ray equipment commercially available to industrial laboratories. In the new method, a controlled solvent environment is created around the thin film so that an equilibrium amount of adsorption adsorption, adhesion of the molecules of liquids, gases, and dissolved substances to the surfaces of solids, as opposed to absorption, in which the molecules actually enter the absorbing medium (see adhesion and cohesion). occurs. Under such conditions, XR instrumentation gives accurate values of the total density that is a combination of wall density and solvent-filled pores. The mass uptake as a function of partial pressure is calculated from these results. An additional potential advantage of XRP is the ability to quantify not only the average film density, but also the density profile normal to the film surface. Ongoing work investigates the potential of XRP to extract pore size distributions as a function of depth into film. To prevent dielectric breakdown, the semiconductor industry prefers to have low porosity or very small pores near the surfaces with the majority of the porosity in the localized in the center of the thin film. XRP has the potential to become a useful method for characterizing these types of structures using commercially available XR within industrial laboratories. CONTACT: Christopher Soles, (301) 975-8087; csoles@nist.gov or Barry Bauer, (301) 975-6849; barry.bauer@nist.gov or Wen-li Wu, (301) 975-6839; wen-li.wu@nist.gov. |
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