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This page is written by Evgeniy Shkondin @DTU Nanolab if nothing else is stated.
All images and photos on this page belongs to DTU Nanolab.
The fabrication and characterization described below were conducted in 2024 by Evgeniy Shkondin, DTU Nanolab.

This page describes the values of instrumental broadening in θ/2θ measurements and can be used as a reference for peak broadening in grain size calculation. The most common slit configuration cases are chosen, both with and without the Ge220 monochromator.

The instrumental broadening has been measured by using standard Si and LaB₆ powder.

Scherrer formula:

$D={\frac {K\cdot \lambda }{\beta _{sample}\cdot cos\theta }}$

where: K is Scherrer constant (typically close to unity K=0.9-1)
λ is a wavelength of X-ray radiation (λ Cu-K_α1 = 1.540562 Å, and in case both Cu-K_α1 and Cu-K_α2 are present λ Cu-K_α1,2 = 1.541871 Å)
θ is Bragg angle
β_sample is a peak broadening. The technical point should be noted that intergal breadth and/or FWHM have to be inserted in radians.

$\beta _{sample}=\beta _{measure}-\beta _{instrumental}$ in the case where the peaks obey Lorentzian (or Cauchy) distribution profile.

$\beta _{sample}^{2}=\beta _{measure}^{2}-\beta _{instrumental}^{2}$ in the case of Gaussian distribution profile.

Experimental results implied that crystallite size causes Cauchy-type broadening, while strain broadening is associated with a Gaussian profile. Real measurements contain contributions from both Lorentzian (Cauchy) and Gaussian distributions.

Both LaB₆ and Si powder provided the best fit with a Gaussian function. Therefore, all the results below are presented using a Gaussian fit.

It also seems necessary to use a high-quality single crystal to include both Lorentzian and Gaussian contributions and fit with a Pseudo-Voight approach.

Reference samples used in instrumental broadening analysis.
LaB₆ and Si powders mounted on a Silicon-(100) wafer chip using double sticky Kapton tape.

Full scans

Here the full scans of LaB₆ and Si powder are presented. Each sample was measured with and without the Ge220 monochromator on the incident side, with the Incident Slit (IS) set to either 0.5 mm or 1 mm. On the receiving side, RS1 = 0.5 mm and RS2 = 0.525 mm were used for IS = 0.5 mm, and RS1 = 1 mm and RS2 = 1.125 mm were used for IS = 1 mm. The step width was 0.01° and the speed was 2°/min for all scans. A Soller slit of 5° was selected as the Receiving Parallel Slit (RPS) for all scans. In the case of the IPS adapter, the Soller slit of 5° was used.

2θ scans of Si reference sample.
Measured LaB₆ powder reference sample in a range of 20-120° of 2θ. Area marked as gray contains a main 004 Si peak from a silicon chip which is a holder for powder sample.
Measured LaB₆ powder reference sample in a range of 20-120° of 2θ. Area marked as gray contains a main 004 Si peak from a silicon chip which is a holder for powder sample.
Measured LaB₆ powder reference sample in a range of 20-120° of 2θ. Area marked as gray contains a main 004 Si peak from a silicon chip which is a holder for powder sample.
Measured LaB₆ powder reference sample in a range of 20-120° of 2θ. Area marked as gray contains a main 004 Si peak from a silicon chip which is a holder for powder sample.
Measured Si powder reference sample in a range of 20-120° of 2θ. Area marked as gray contains a main 004 Si peak from a silicon chip which is a holder for powder sample.
Measured Si powder reference sample in a range of 20-120° of 2θ. Area marked as gray contains a main 004 Si peak from a silicon chip which is a holder for powder sample.
Measured Si powder reference sample in a range of 20-120° of 2θ. Area marked as gray contains a main 004 Si peak from a silicon chip which is a holder for powder sample.
Measured Si powder reference sample in a range of 20-120° of 2θ. Area marked as gray contains a main 004 Si peak from a silicon chip which is a holder for powder sample.

Broadening functions.
Calculated FWHM as a function of 2θ.
Calculated Integral breadth as a function of 2θ.

2θ scans of Si reference sample.
Gaussian fitted FWHM of measured LaB₆ and Si powder reference samples using Ge220 monochromator with IS = 0.5 mm.
Gaussian fitted FWHM of measured LaB₆ and Si powder reference samples using Ge220 monochromator with IS = 1.0 mm.
Gaussian fitted FWHM of measured LaB₆ and Si powder reference samples using IPS adaptor with IS = 0.5 mm.
Gaussian fitted FWHM of measured LaB₆ and Si powder reference samples using IPS adaptor with IS = 1.0 mm.
Gaussian fitted Integral breadth of measured LaB₆ and Si powder reference samples using Ge220 monochromator with IS = 0.5 mm.
Gaussian fitted Integral breadth of measured LaB₆ and Si powder reference samples using Ge220 monochromator with IS = 1.0 mm.
Gaussian fitted Integral breadth of measured LaB₆ and Si powder reference samples using IPS adaptor with IS = 0.5 mm.
Gaussian fitted Integral breadth of measured LaB₆ and Si powder reference samples using IPS adaptor with IS = 1.0 mm.

case1 - LaB₆ with Ge220 monochromator

LaB₆ Ge220 monochromator on incident side

IS = 0.5 mm
Orientation	2θ (°)	Integral breadth (°)	Integral breadth (rad)	FWHM (°)	FWHM (rad)
100	21.337	0.10739	0.00187	0.10089	0.00176
110	30.3523	0.13819	0.0024	0.12982	0.0023
111	37.4169	0.12657	0.0022	0.1189	0.0021
200	43.4813	0.12415	0.0022	0.11663	0.0020
210	48.9438	0.19641	0.0034	0.12504	0.0022
211	53.9726	0.14188	0.0025	0.13328	0.0023
220	63.2028	0.12865	0.0022	0.12086	0.0021
?	67.5401	0.12066	0.0021	0.11335	0.0020
?	71.7371	0.10965	0.0019	0.10301	0.0018
310	75.8311	0.10923	0.0019	0.10262	0.0018
320	87.7842	0.13106	0.0023	0.12312	0.0021
410	99.6432	0.13603	0.0024	0.12779	0.0022
411	103.6716	0.14652	0.0026	0.13765	0.0024
421	116.2506	0.14605	0.0025	0.1372	0.0024

IS = 1.0 mm
Orientation	2θ (°)	Integral breadth (°)	Integral breadth (rad)	FWHM (°)	FWHM (rad)
100	21.3112	0.24000	0.0042	0.22547	0.0039
110	30.3476	0.23945	0.0042	0.22494	0.0039
111	37.4059	0.22363	0.0039	0.21009	0.0037
200	43.471	0.23381	0.0041	0.21965	0.0038
210	48.9311	0.23146	0.0040	0.21744	0.0038
211	53.9635	0.21833	0.0038	0.2051	0.0036
220	63.2056	0.21683	0.0038	0.20369	0.0036
?	67.6308	0.22749	0.0040	0.21371	0.0037
?	71.7340	0.24789	0.0043	0.23288	0.0041
310	75.8186	0.22282	0.0039	0.20933	0.0037
320	87.7794	0.22295	0.0039	0.20945	0.0037
410	99.6445	0.21801	0.0038	0.20481	0.0036
411	103.6522	0.20431	0.0036	0.21748	0.0038
421	116.2526	0.2521	0.0044	0.23683	0.0041

case2 - LaB₆ with IPS adaptor

LaB₆ IPS on incident side

IS = 0.5 mm
Orientation	2θ (°)	Integral breadth (°)	Integral breadth (rad)	FWHM (°)	FWHM (rad)
100	21.3385	0.16688	0.0029	0.15677	0.0027
110	30.3784	0.7473	0.0030	0.16415	0.0029
111	37.4424	0.18775	0.0033	0.17638	0.0031
200	43.5157	0.21383	0.0037	0.20088	0.0035
210	48.9575	0.16613	0.0029	0.15607	0.0027
211	53.9741	0.13757	0.0024	0.12924	0.0023
220	63.2098	0.16157	0.0028	0.15179	0.0026
?	67.5436	0.13682	0.0024	0.12853	0.0022
?	71.74000	0.13819	0.0024	0.12982	0.0023
310	75.84990	0.15249	0.0027	0.14326	0.0025
320	87.79290	0.13792	0.0024	0.12956	0.0023
410	99.6461	0.14402	0.0025	0.13529	0.0024
411	103.6695	0.14404	0.0025	0.13532	0.0024
421	116.2607	0.16243	0.0028	0.15259	0.0027

IS = 1.0 mm
Orientation	2θ (°)	Integral breadth (°)	Integral breadth (rad)	FWHM (°)	FWHM (rad)
100	21.3354	0.25476	0.0044	0.23933	0.0042
110	30.3763	0.24934	0.0044	0.23424	0.0041
111	37.4454	0.25983	0.0045	0.24409	0.0043
200	43.5167	0.26947	0.0047	0.25315	0.0044
210	48.9694	0.26146	0.0046	0.24562	0.0043
211	53.9866	0.24426	0.0043	0.22947	0.0040
220	63.2297	0.27671	0.0048	0.25995	0.0045
?	67.5594	0.27847	0.0049	0.26161	0.0046
?	71.7568	0.26005	0.0045	0.2443	0.0043
310	75.8530	0.27326	0.0048	0.25671	0.0045
320	87.7921	0.25544	0.0045	0.23997	0.0042
410	99.6463	0.23764	0.0041	0.22324	0.0039
411	103.664	0.23902	0.0042	0.22454	0.0039
421	116.2617	0.25501	0.0045	0.23957	0.0042

case3 - Si powder with Ge220 monochromator

Si powder Ge220 monochromator on incident side

IS = 0.5 mm
Orientation	2θ (°)	Integral breadth (°)	Integral breadth (rad)	FWHM (°)	FWHM (rad)
111	28.4124	0.15459	0.0027	0.14522	0.0025
220	47.2829	0.13319	0.0023	0.12512	0.0022
311	56.1009	0.1342	0.0023	0.12608	0.0022
331	76.3771	0.17568	0.0031	0.16504	0.0029
511	88.0381	0.14264	0.0025	0.1340	0.0023
440	-	-	-	-	-
531	-	-	-	-	-
422	-	-	-	-	-

IS = 1.0 mm
Orientation	2θ (°)	Integral breadth (°)	Integral breadth (rad)	FWHM (°)	FWHM (rad)
111	28.3944	0.2392	0.0042	0.22471	0.0039
220	47.2802	0.20108	0.0035	0.1889	0.0033
311	56.1069	0.22110	0.0039	0.20771	0.0036
331	76.3585	0.20981	0.0037	0.1971	0.0034
422	88.0277	0.2230	0.0039	0.20949	0.0037
511	94.9552	0.23689	0.0041	0.22255	0.0039
440	106.6949	0.19242	0.0034	0.18076	0.0032
531	114.0880	0.22245	0.0039	0.20898	0.0036

case4 - Si powder with IPS adaptor

Si powder IPS on incident side

IS = 0.5 mm
Orientation	2θ (°)	Integral breadth (°)	Integral breadth (rad)	FWHM (°)	FWHM (rad)
111	28.4386	0.23378	0.0041	0.14883	0.0026
220	47.3197	0.22441	0.0039	0.21082	0.0037
311	56.1199	0.14714	0.0026	0.13823	0.0024
331	76.3703	0.13962	0.0024	0.13116	0.0023
511	88.0354	0.15322	0.0027	0.14394	0.0025
440	94.9602	0.15685	0.0027	0.14735	0.0026
531	106.7178	0.16969	0.0030	0.15941	0.0028
422	114.1167	0.18994	0.0033	0.17844	0.0031

IS = 1.0 mm
Orientation	2θ (°)	Integral breadth (°)	Integral breadth (rad)	FWHM (°)	FWHM (rad)
111	28.4311	0.24618	0.0043	0.23127	0.0040
220	47.3122	0.27804	0.0049	0.2612	0.0046
311	56.1430	0.27204	0.0047	0.25557	0.0045
331	76.3978	0.27933	0.0049	0.26241	0.0046
422	88.0267	0.24578	0.0043	0.23089	0.0040
511	94.957	0.26134	0.0046	0.24551	0.0043
440	106.7393	0.29928	0.0052	0.28116	0.0049
531	114.1079	0.2957	0.0052	0.27779	0.0048

Full scans

case1 - LaB6 with Ge220 monochromator

case2 - LaB6 with IPS adaptor

case3 - Si powder with Ge220 monochromator

case4 - Si powder with IPS adaptor

case1 - LaB₆ with Ge220 monochromator

case2 - LaB₆ with IPS adaptor