Characterization of ultra-shallow aluminum implants in silicon by grazing incidence and grazing emission X-ray fluorescence spectroscopy

Hönicke, Philipp; Kayser, Yves; Beckhoff, Burkhard; Müller, Mat­thias; Dousse, J.‐Cl.; Hoszowska, J.; Nowak, S.

doi:10.1039/c2ja10385k

Cited by 37 publications

(38 citation statements)

References 42 publications

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“…This quantification approach was cross-checked by means of a reference sample, a 15 keV Al-implanted Si wafer which was characterized in [48]. Usually, quantification measurements are realized by recording the XRF intensity at a single sample position and deducing the studied elemental quantity contained in the sample from the XRF intensity.…”

Section: Resultsmentioning

confidence: 99%

“…The high-resolution reflection-type von Hamos curved crystal X-ray spectrometer of the University of Fribourg [93] was installed downstream of the beamline's scanning X-ray microscope (SXM) chamber. The University of Fribourg's von Hamos spectrometer, when installed at the ESRF ID21 beamline and configured in the GEXRF geometry, has been characterized in terms of detection limits [42,43] and depth-profiling capabilities [47,48]. The main components of the spectrometer ( characterized in [94].…”

Section: Methodsmentioning

confidence: 99%

“…Other application domains are micro-and trace analyses, surface contamination control (see [38][39][40][41] for GIXRF and [42][43][44] for GEXRF among others for semiconductor applications) and depth-profiling of ion-implanted samples (see for example [45][46][47] for GIXRF and GEXRF, respectively). In the latter application a comparison of GIXRF and GEXRF for Al implantations in Si can be found in [48]. In the two former application domains the X-ray fluorescence intensity is detected at a fixed incidence or emission angle below the critical angle since the primary goal is to detect the presence of contaminants.…”

Section: Introductionmentioning

confidence: 99%

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High-energy-resolution grazing emission X-ray fluorescence applied to the characterization of thin Al films on Si

Kayser

Szlachetko

Banaś

et al. 2013

Spectrochimica Acta Part B: Atomic Spectroscopy

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The grazing emission X-ray fluorescence (GEXRF) technique was applied to the analysis of different Al films, with nominal thicknesses in the range of 1 nm to 150 nm, on Si wafers. In GEXRF the sample volume from which the fluorescence intensity is detected is restricted to a near-surface region whose thickness can be tuned by varying the observation angle. This is possible because of the refraction of the fluorescence X-rays and the quite long emission paths within the probed sample. By recording the X-ray fluorescence signal for different shallow emission angles, defined relatively to the flat, smooth sample surface, the deposited Al surface layers of the different samples could be well characterized in terms of layer thickness, layer density, oxidation and surface roughness. The advantages offered by synchrotron radiation and the employed wavelength-dispersive detection setup were profited from. The GEXRF results retrieved were confirmed by complementary measurements. The experimental setup, the principles and advantages of GEXRF and the analysis of the recorded angular intensity profiles will be discussed in details.

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Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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High-energy-resolution grazing emission X-ray fluorescence applied to the characterization of thin Al films on Si

Kayser

Szlachetko

Banaś

et al. 2013

Spectrochimica Acta Part B: Atomic Spectroscopy

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“…For example, GIXRF and XRR support each other by using the same parameters for layer thicknesses and properties, such as density and roughness. 25 The improvement of results can be shown for other analytical techniques, too.…”

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confidence: 97%

Complementary methodologies for thin film characterization in one tool – a novel instrument for 450 mm wafers

Holfelder

Beckhoff

Fliegauf

et al. 2013

J. Anal. At. Spectrom.

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aThe scaling down of critical dimensions for the manufacturing of nanoelectronics requires the continuous introduction of new materials. The results of the analysis of thin high-k films made from Al 2 O 3 as reference samples were used at multiple laboratories to show the power and strength of complementary metrology, e.g. using various techniques, such as synchrotron radiation X-ray spectrometry, 'table top' grazing incidence X-ray spectrometry and X-ray reflectometry, and spectroscopic ellipsometry. The layer thicknesses and material parameters validated by several analytical techniques demonstrate the successes of the use of complementary metrology. The requirement for validation, assurance, and support using differing analytical methods is driving the integration of multiple methods into one tool. This paper proposes an integrated metrology approach for reliable characterization of structure and composition. For the analysis of surfaces and materials, light sources in different spectral ranges, e.g. X-rays or infrared light, are used for diffraction, scattering, or excitation of fluorescence. The use of appropriate detectors in the scattering or fluorescence geometry is indispensable. Highly precise metrology requires accurate positioning of the sample with respect to the sources and the detectors.The handling unit for samples and automation are the main contributors to the cost of the semiconductor metrology equipment. For this reason, the approach of integrating multiple analytical techniques has advantages with respect to cost aspects and handling steps. A design study of the 450 mm analytical platform was performed. This design study integrates seven complementary analytical methods into one metrology chamber. Five methods rely on X-ray characterization methods, such as Total Reflection X-Ray Fluorescence Analysis (TXRF), Grazing Incidence X-Ray Fluorescence Analysis (GIXRF/XRF), X-Ray Reflectometry (XRR), X-Ray Diffractometry (XRD), and Grazing Incidence Small Angle X-Ray Scattering (GISAXS). Furthermore, the two methods of spectroscopic ellipsometry and vacuum UV reflectometry using the spectral range of ultra-violet to infrared were supplemented. A novel 5-axis positioning system was designed and patented, enabling the integration of all analytical methods into one chamber under vacuum or atmospheric conditions.

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“…In particular they are very useful for trace elements' analysis [6,16], characterization of thin layers [7,17] and depth profiling [18][19][20]. The usefulness of grazing XRF techniques for nanoparticle characterization has also been demonstrated [8,[21][22][23][24][25][26].…”

Section: Grazing Angle Geometriesmentioning

confidence: 99%

Grazing angle X-ray fluorescence from periodic structures on silicon and silica surfaces

Nowak

Banaś

Błchucki

et al. 2014

Spectrochimica Acta Part B: Atomic Spectroscopy

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Various 3-dimensional nano-scaled periodic structures with different configurations and periods deposited on the surface of silicon and silica substrates were investigated by means of the grazing incidence and grazing emission X-ray fluorescence techniques. Apart from the characteristics which are typical for particle-and layer-like samples, the measured angular intensity profiles show additional periodicity-related features. The latter could be explained by a novel theoretical approach based on simple geometrical optics (GO) considerations. The new GO-based calculations were found to yield results in good agreement with experiment, also in cases where other theoretical approaches are not valid, e.g., periodic particle distributions with an increased surface coverage.

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Characterization of ultra-shallow aluminum implants in silicon by grazing incidence and grazing emission X-ray fluorescence spectroscopy

Cited by 37 publications

References 42 publications

High-energy-resolution grazing emission X-ray fluorescence applied to the characterization of thin Al films on Si

High-energy-resolution grazing emission X-ray fluorescence applied to the characterization of thin Al films on Si

Complementary methodologies for thin film characterization in one tool – a novel instrument for 450 mm wafers

Grazing angle X-ray fluorescence from periodic structures on silicon and silica surfaces

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