Diffraction in a sentence

(1) X-ray diffraction is a non-destructive technique.

(2) A diffraction grating is a tool used in spectroscopy.

(3) The diffractometer measures the angles of diffraction.

(4) The laser beam diffracts from the diffraction grating.

(5) The antinode is a point of maximum diffraction in a wave.

(6) The antisolar halo is caused by the diffraction of light.

(7) The alite crystals were analyzed using X-ray diffraction.

(8) Photons can exhibit interference and diffraction patterns.

(9) The team used X-ray diffraction to analyze the polymorphs.

(10) The cerussite sample was analyzed using X-ray diffraction.

Diffraction sentence

(11) The diffraction grating is made up of many parallel lines.

(12) The spectrum line was observed using a diffraction grating.

(13) Diffraction is an important concept in the field of optics.

(14) The porphyrite sample was analyzed using X-ray diffraction.

(15) Diffraction is a fundamental concept in the field of optics.

(16) The goniometer is used to measure the angles of diffraction.

(17) The scientist used X-ray diffraction to study the anhedrals.

(18) The biprism is used to study the diffraction of light waves.

(19) The ions in a solid can be analyzed using X-ray diffraction.

(20) X-ray diffraction can be used to identify unknown substances.

Diffraction make sentence

(21) Bainite can be identified using X-ray diffraction techniques.

(22) The diffraction grating is a key tool in the field of optics.

(23) The diffraction of microwaves is utilized in radar technology.

(24) The diffraction of microwaves can be used to cook food evenly.

(25) The diffraction of microwaves can be utilized in radar systems.

(26) The diffraction of sound waves can cause interference patterns.

(27) The crystallite structure was analyzed using X-ray diffraction.

(28) The diffraction grating splits light into its component colors.

(29) The diffraction grating can be used to create a rainbow effect.

(30) Intermetallic phases can be identified using X-ray diffraction.

Sentence of diffraction

(31) X-ray diffraction patterns are unique to each crystal structure.

(32) The diffraction of X-rays is a powerful tool in crystallography.

(33) The crystallite exhibited a unique pattern of light diffraction.

(34) The diffraction grating is commonly used in physics experiments.

(35) X-ray diffraction relies on the properties of the x-ray spectrum.

(36) X-ray diffraction is an important tool in the study of mineralogy.

(37) The crystalloids were analyzed using X-ray diffraction techniques.

(38) The atomises of the element were analyzed using X-ray diffraction.

(39) The boehmites in the sample were analyzed using X-ray diffraction.

(40) The interparticle spacing can be measured using X-ray diffraction.

Diffraction meaningful sentence

(41) The geologist used X-ray diffraction to analyze the macle crystal.

(42) The laser beam diffracts when it encounters a diffraction grating.

(43) X-ray diffraction is an essential tool in the field of mineralogy.

(44) The diffraction grating was used to disperse light achromatically.

(45) The wavelength of a wave can be used to determine its diffraction.

(46) The interlamellar distance can be measured using X-ray diffraction.

(47) The diffraction of particles can be used to study their properties.

(48) The diffraction grating was able to separate colors achromatically.

(49) The suboxide phase was identified using X-ray diffraction analysis.

(50) The diffraction grating is a key component in many optical devices.

Diffraction sentence examples

(51) The diffraction pattern formed by the laser beam is quite intricate.

(52) The X-ray diffraction technique is commonly used in crystallography.

(53) The diffraction of waves is a fundamental property of wave behavior.

(54) The diffraction of radio waves allows them to bend around obstacles.

(55) The morphologies of crystals can be studied using X-ray diffraction.

(56) X-ray diffraction is widely used in the study of protein structures.

(57) The size of microcrystals can be determined using X-ray diffraction.

(58) The properties of atomisms can be studied through X-ray diffraction.

(59) The scientist used a powder diffraction technique to study crystals.

(60) The coprecipitate was characterized using X-ray diffraction analysis.

Sentence with diffraction

(61) X-ray diffraction is commonly used in the field of materials science.

(62) Diffraction patterns can be seen when light passes through a grating.

(63) The diffraction of light through a pinhole can create a blurry image.

(64) The diffraction of light through a CD can create a colorful spectrum.

(65) The diffraction of water waves can be observed at the edge of a pool.

(66) The serpentinized rock samples were analyzed using X-ray diffraction.

(67) The gangue minerals were identified using X-ray diffraction analysis.

(68) The X-ray diffraction pattern revealed the presence of a crystallite.

(69) X-ray diffraction is widely used in the field of solid-state physics.

(70) The resolution of photolithography is limited by diffraction effects.

Use diffraction in a sentence

(71) The biaxal strain in the sample was measured using X-ray diffraction.

(72) The bismuthic crystal structure was analyzed using X-ray diffraction.

(73) The tantalate crystal structure was analyzed using X-ray diffraction.

(74) The wavelength of a wave can be affected by the angle of diffraction.

(75) The diffraction grating is a fundamental tool in the study of optics.

(76) Aplitic minerals can be identified through X-ray diffraction analysis.

(77) The diffraction of microwaves is used in microwave ovens to heat food.

(78) The diffraction of radio waves allows for long-distance communication.

(79) The diffraction of sound waves around corners can be heard as an echo.

(80) The bremsstrahlung radiation is used in X-ray diffraction experiments.

Sentence using diffraction

(81) Diffractometry is a technique used to study the diffraction of X-rays.

(82) The interferential waves created a diffraction pattern on the surface.

(83) The sideritic mineral was identified using X-ray diffraction analysis.

(84) The polytype of a mineral can be determined through X-ray diffraction.

(85) The bismuthous crystal structure was analyzed using X-ray diffraction.

(86) Diffraction can cause interference patterns to form when waves overlap.

(87) The diffraction of electrons is a key principle in electron microscopy.

(88) The polytype of this mineral can be identified using X-ray diffraction.

(89) The wavenumber of a wave can be used to analyze its diffraction limits.

(90) The lithology of the rock samples was analyzed using X-ray diffraction.

Diffraction example sentence

(91) The troilite in the rock sample was identified using X-ray diffraction.

(92) The diffraction grating can be used to measure the wavelength of light.

(93) The diffraction grating is a crucial component in many optical systems.

(94) The dodecahedral crystal structure was analyzed using X-ray diffraction.

(95) The unit cell is used to calculate the diffraction pattern of a crystal.

(96) The research team used X-ray diffraction to analyze the microstructures.

(97) The diffraction of laser beams can be used to create intricate patterns.

(98) The scientist used X-ray diffraction to analyze the monoclinous crystal.

(99) The trachytoid mineral composition was analyzed using X-ray diffraction.

(100) The study of optics helps in understanding the phenomenon of diffraction.

Sentence with word diffraction

(101) X-ray diffraction can be used to study the defects in crystal structures.

(102) The diffraction of gamma rays is a phenomenon studied in nuclear physics.

(103) The diffraction of infrared radiation is used in spectroscopy techniques.

(104) Interatomic distances can be measured using X-ray diffraction techniques.

(105) The diffraction of light waves can create beautiful patterns on a screen.

(106) The diffraction of sound waves can create interesting patterns in a room.

(107) The geologist used X-ray diffraction to confirm the presence of bornitic.

(108) The anisotropism of the material can be analyzed using X-ray diffraction.

(109) The wavenumber of a wave can be used to analyze its diffraction patterns.

(110) The wavenumber of a wave can be used to determine its diffraction angles.

Sentence of diffraction

(111) X-ray diffraction is commonly employed in the field of materials science.

(112) The X-ray diffraction analysis confirmed the purity of the microcrystals.

(113) The nondegenerate crystal structure was analyzed using X-ray diffraction.

(114) The allanitic composition of the rock was confirmed by X-ray diffraction.

(115) The crystal's crystalline structure was analyzed using X-ray diffraction.

(116) The isotropy of the crystal structure was confirmed by X-ray diffraction.

(117) The electron lens is an integral part of electron diffraction experiments.

(118) The diffraction grating works based on the principle of wave interference.

(119) X-ray diffraction is an essential tool in the study of protein structures.

(120) X-ray diffraction can be used to study the phase transitions in materials.

Diffraction used in a sentence

(121) The light spectrum can be observed using a prism or a diffraction grating.

(122) The scientist used a diffraction grating to study the properties of light.

(123) Plasmons can be used to create sub-diffraction-limited imaging techniques.

(124) The diffraction of seismic waves can help locate underground oil reserves.

(125) The diffraction grating diffracted the incoming light into multiple beams.

(126) The Huygens-Fresnel principle is used to analyze the diffraction of light.

(127) The microcrystal structure was carefully examined using X-ray diffraction.

(128) The morphic structure of the crystal was analyzed using X-ray diffraction.

(129) The presence of suboxide in the sample was confirmed by X-ray diffraction.

(130) The chemist analyzed the structure of the crystal using X-ray diffraction.

Diffraction sentence in English

(131) The crookes tube was used to study the properties of electron diffraction.

(132) The clinopinacoid form of the mineral was identified by X-ray diffraction.

(133) The crystal's crystalline structure was studied using neutron diffraction.

(134) The diffraction grating is a simple yet powerful tool for analyzing light.

(135) The diffraction grating is a key component in many scientific instruments.

(136) The diffraction grating is a valuable tool for scientists and researchers.

(137) The isotropic properties of the rock were determined by X-ray diffraction.

(138) The microcrystal structure was analyzed using X-ray diffraction techniques.

(139) Anatase is often used as a reference material in X-ray diffraction studies.

(140) The diffraction of visible light can create beautiful patterns on a screen.

(141) The diffraction of waves around obstacles is a common occurrence in nature.

(142) The microscope's iris diaphragm was designed to minimize light diffraction.

(143) The pelitic minerals in the rock can be identified using X-ray diffraction.

(144) The mineralogist identified the amblygonite sample using X-ray diffraction.

(145) The refractivities of the crystals were determined using X-ray diffraction.

(146) The wavelength of a wave can be used to determine the angle of diffraction.

(147) The enantiomorphic crystals exhibited different X-ray diffraction patterns.

(148) The lensless telescope uses a diffraction grating to enhance image quality.

(149) The peraluminous minerals were identified using X-ray diffraction analysis.

(150) The crystalloid lattice of the mineral was analyzed using X-ray diffraction.

(151) Gibbsite is often used as a reference material in X-ray diffraction studies.

(152) The diffraction of particles can provide insights into their quantum nature.

(153) The diffraction of water waves can be affected by the presence of obstacles.

(154) The hemihedral symmetry of the crystal was analyzed using X-ray diffraction.

(155) The precision of electron diffraction allows for measurements in picometers.

(156) By using an interferometer, scientists can study the effects of diffraction.

(157) The team used X-ray diffraction to study the microstructures of the crystal.

(158) The crystal structure of picene has been determined using X-ray diffraction.

(159) The crystal structure of carbazole has been determined by X-ray diffraction.

(160) The angle of incidence is used in the study of diffraction and interference.

(161) The rhombohedral angles of the crystal were measured using X-ray diffraction.

(162) The study of diffraction is essential in understanding the behavior of waves.

(163) Diffraction can cause the spreading of waves as they pass through an opening.

(164) The diffraction of X-rays through a crystal lattice can reveal its structure.

(165) X-ray diffraction is a technique used to determine the structure of crystals.

(166) The bauxitic minerals in this sample can be analyzed using X-ray diffraction.

(167) The diffraction of light through a grating produces a series of bright spots.

(168) The diffraction of X-rays is used to study the atomic structure of materials.

(169) The atomical structure of the mineral was identified using X-ray diffraction.

(170) The X-ray diffraction pattern confirmed the monoclinic nature of the crystal.

(171) The scientists used X-ray diffraction to analyze electrode crystal structure.

(172) The crystal lattice of a substance can be determined using x-ray diffraction.

(173) The Fourier series can be used to analyze the diffraction patterns in optics.

(174) The wave number of this wave is an important factor in diffraction phenomena.

(175) The crystal structure of diamide has been determined using X-ray diffraction.

(176) The nucleating behavior of a material can be studied using X-ray diffraction.

(177) The diffraction of light can be observed when it passes through a narrow slit.

(178) Phonons can exhibit wave-like properties such as interference and diffraction.

(179) The diffraction of water waves can create interesting patterns on the surface.

(180) The diffraction of radio waves around buildings can cause signal interference.

(181) The crystal structure of dawsonites can be visualized using X-ray diffraction.

(182) The depolymerised material was characterized using X-ray diffraction analysis.

(183) The presence of uranophane can be detected through X-ray diffraction analysis.

(184) The spherulitic structure of the mineral was analyzed using X-ray diffraction.

(185) The crystal structure of molybdates can be determined using X-ray diffraction.

(186) The crystal structure of tungstates can be determined using X-ray diffraction.

(187) The x-ray diffraction data provided evidence for the formation of a new phase.

(188) The presence of embolite can be identified through X-ray diffraction analysis.

(189) The researchers used X-ray diffraction to analyze electrode crystal structure.

(190) The diffractions of neutron beams are used in neutron diffraction experiments.

(191) The size and shape of the microcrystals were analyzed using X-ray diffraction.

(192) Whewellite is often used as a reference material in X-ray diffraction studies.

(193) The diffraction grating is a useful tool for studying the properties of light.

(194) The pleochroism of the crystal was analyzed using X-ray diffraction techniques.

(195) X-ray diffraction is used to determine the crystalline structure of a material.

(196) The researcher used X-ray diffraction to analyze the crystallite's composition.

(197) The discovery of X-ray diffraction revolutionized the field of crystallography.

(198) X-ray diffraction can provide information about the size and shape of crystals.

(199) X-ray diffraction can be used to analyze the composition of geological samples.

(200) The crystal structure of the polymorphs was determined using X-ray diffraction.

(201) The crystallizable material was characterized using X-ray diffraction analysis.

(202) The researcher used a diffraction grating to split the ray onto multiple paths.

(203) The crystallographer used X-ray diffraction to determine the crystal structure.

(204) The researchers analyzed the semicrystalline structure using X-ray diffraction.

(205) The presence of millerite can be identified through X-ray diffraction analysis.

(206) Crookes' equation relates the wavelength of X-rays to the angle of diffraction.

(207) Quasicrystals have been studied extensively using X-ray diffraction techniques.

(208) The crystal structure of ruthenate has been determined using X-ray diffraction.

(209) The molecular structure of a crystal can be determined using X-ray diffraction.

(210) The clinopinacoid form of the mineral was identified through X-ray diffraction.

(211) The aeolotropic structure of the molecule was analyzed using X-ray diffraction.

(212) The diffraction grating is a powerful tool for analyzing the behavior of light.

(213) X-ray diffraction is a key technique in the field of materials characterization.

(214) The diffraction of water waves can be observed when they encounter a breakwater.

(215) The diffraction of laser beams can be controlled using various optical elements.

(216) The structure of oxyfluoride crystals can be determined using X-ray diffraction.

(217) The team used interferograms to study the effects of diffraction on light waves.

(218) The monosymmetric structure of the crystal was analyzed using X-ray diffraction.

(219) The diffraction grating diffracted the incoming light into a spectrum of colors.

(220) X-ray diffraction analysis revealed the presence of a new mineral in the sample.

(221) The crystalline structure of spherulites can be studied using X-ray diffraction.

(222) The tenorite in the rock sample was identified using X-ray diffraction analysis.

(223) The geologist identified the torbernite sample using X-ray diffraction analysis.

(224) The diffraction grating is a device that splits light into its component colors.

(225) The diffraction grating can be used to measure the refractive index of materials.

(226) X-ray diffraction is a technique used to study the atomic structure of materials.

(227) The diffraction of sound waves can affect the quality of music in a concert hall.

(228) The diffraction of sound waves can be observed when passing through a small hole.

(229) The diffraction of X-rays is used to determine the atomic structure of materials.

(230) The diffraction of ultraviolet light can be observed using a diffraction grating.

(231) The crystal structure of phyllosilicates can be analyzed using X-ray diffraction.

(232) Interferometric analysis is used to study the properties of diffraction patterns.

(233) Silver iodide is often used as a reference material in X-ray diffraction studies.

(234) The diffraction of electrons can be used to determine the structure of molecules.

(235) The x-ray diffraction analysis revealed the presence of impurities in the sample.

(236) An antiferromagnet's magnetic structure can be studied using neutron diffraction.

(237) The diffractometer's high-resolution detector captured detailed diffraction data.

(238) The bipyramidal crystal structure was carefully analyzed using X-ray diffraction.

(239) The wave length of a wave can be determined by analyzing its diffraction pattern.

(240) The chemist analyzed the composition of a mineral sample using X-ray diffraction.

(241) The degree of crystallinity in the sample was determined using X-ray diffraction.

(242) The crystal structure of a substance can be determined through X-ray diffraction.

(243) The diffraction grating is used to separate light into its different wavelengths.

(244) The diffraction grating is a powerful tool for analyzing the properties of light.

(245) The physicist used an x-ray through the crystal to study its diffraction pattern.

(246) The diffractometer's software provides real-time analysis of diffraction patterns.

(247) X-ray diffraction is a technique that relies on the scattering of X-rays by atoms.

(248) The diffraction of radio waves is utilized in radar systems for detecting objects.

(249) The diffraction of waves can be quantitatively analyzed using mathematical models.

(250) The diffraction of light through a prism separates it into its constituent colors.

(251) The diffraction of water waves around a rock can create interesting wave patterns.

(252) The phenomenon of diffraction occurs when waves encounter an obstacle or aperture.

(253) The metallurgist analyzed the crystal structure of metals using X-ray diffraction.

(254) The identification of chlorites in a sample can be done through X-ray diffraction.

(255) The anticathode is a primary source of X-ray photons in X-ray diffraction studies.

(256) The path difference between the two laser beams resulted in a diffraction pattern.

(257) The lamellar crystals in the mineral sample were analyzed using X-ray diffraction.

(258) The anisotropic properties of the material can be studied using X-ray diffraction.

(259) The crystal lattice of a mineral can be studied using X-ray diffraction techniques.

(260) The diffraction grating is based on the principles of diffraction and interference.

(261) X-ray diffraction is based on the principle of constructive interference of X-rays.

(262) X-ray diffraction is widely used in the pharmaceutical industry for drug discovery.

(263) X-ray diffraction can be used to determine the presence of impurities in a crystal.

(264) X-ray diffraction is used in the field of archaeology to analyze ancient artifacts.

(265) The decarburizations of the steel were analyzed using X-ray diffraction techniques.

(266) Pentlandite is commonly used as a reference mineral for X-ray diffraction analysis.

(267) X-ray diffraction can be used to study the arrangement of crystallites in a sample.

(268) The crystal structure of the niobate material was analyzed using X-ray diffraction.

(269) The research team used electron backscatter diffraction to map the microstructures.

(270) The trigonal symmetry of the crystal is reflected in its X-ray diffraction pattern.

(271) The diffraction of laser beams can be controlled by using various optical elements.

(272) Bismuthite can be easily distinguished from other minerals using X-ray diffraction.

(273) X-ray diffraction is used to investigate the crystallographic defects in materials.

(274) If you are conducting X-ray diffraction experiments, a diffractometer is essential.

(275) Optical diffraction tomography is a technique used to image transparent structures.

(276) The antinodal lines on a diffraction pattern represent points of maximum intensity.

(277) The enantiotropic behavior of the substance can be studied using X-ray diffraction.

(278) The azimuthal symmetry of the crystal lattice was analyzed using X-ray diffraction.

(279) The unit cell of a crystal lattice can be determined by X-ray diffraction analysis.

(280) The zeolitic framework of the crystal lattice was analyzed using X-ray diffraction.

(281) The triclinic crystal structure of the compound was confirmed by X-ray diffraction.

(282) The behavior of solid matter can be studied using techniques like X-ray diffraction.

(283) The diffraction grating is a powerful tool for studying the behavior of light waves.

(284) X-ray diffraction is used in the field of geology to study the composition of rocks.

(285) The diffraction of particles can provide valuable information about their structure.

(286) The diffraction of particles through a narrow slit can create interference patterns.

(287) The crystal structure of platinocyanide has been determined using X-ray diffraction.

(288) The crystal structure of melilite can be studied using X-ray diffraction techniques.

(289) The diffractions of laser beams through a diffraction grating can create a spectrum.

(290) The diffraction of light waves can be observed when they pass through a narrow slit.

(291) The spectral purity of the crystal was evaluated using X-ray diffraction techniques.

(292) The formation of the coprecipitate was confirmed through X-ray diffraction analysis.

(293) If you are conducting powder diffraction experiments, a diffractometer is essential.

(294) The isotropic nature of the sample was confirmed through X-ray diffraction analysis.

(295) The diffraction grating is a useful tool for studying the properties of light waves.

(296) The wavelength of a wave can be used to determine the size of a diffraction grating.

(297) The principles of crystallography are based on the diffraction of X-rays by crystals.

(298) The diffractometer is a scientific instrument used to study the diffraction of light.

(299) Diffraction is a phenomenon that occurs when waves encounter an obstacle or aperture.

(300) The diffraction of seismic waves can help scientists understand the Earth's interior.

(301) Scientists use diffraction to study the properties of light and other types of waves.

(302) The researcher measured the crystallinity of the rock sample using X-ray diffraction.

(303) The scientist studied the crystal structure of molybdic acid using X-ray diffraction.

(304) The diffraction of water waves around a barrier can create interesting wave patterns.

(305) The granulometric composition of the sediment was determined using laser diffraction.

(306) The debye-Waller factor quantifies the effect of thermal motion on X-ray diffraction.

(307) The debye-Waller factor is used to correct X-ray diffraction data for thermal motion.

(308) The x-ray diffraction data confirmed the presence of a new polymorph of the compound.

(309) X-ray diffraction analysis is crucial in the development of new pharmaceutical drugs.

(310) The x-ray diffraction technique allows for the determination of unit cell parameters.

(311) The properties of bilayers can be studied using techniques such as X-ray diffraction.

(312) The use of biprisms in diffraction experiments allows for the study of wave behavior.

(313) The diffraction grating is a simple yet effective way to study the behavior of light.

(314) The isotropy of a substance can be studied using techniques such as X-ray diffraction.

(315) X-ray diffraction can be used to determine the crystal structure of organic compounds.

(316) X-ray diffraction is used in the field of metallurgy for quality control of materials.

(317) The diffraction of light waves is responsible for the colors observed in soap bubbles.

(318) The diffraction of sound waves can be observed when they pass through a small opening.

(319) The angle in addition to the wavelength determines the direction of light diffraction.

(320) The x-ray diffraction experiment provided evidence for the presence of a superlattice.

(321) X-ray diffraction is used to study the deformation behavior of materials under stress.

(322) The anticathode is a source of characteristic X-rays in X-ray diffraction experiments.

(323) The anticathode is a target for electron bombardment in X-ray diffraction experiments.

(324) The wave equation can be used to study phenomena such as interference and diffraction.

(325) The diffraction grating is a fundamental concept in the study of optics and photonics.

(326) The granulometric properties of the rock samples were studied using X-ray diffraction.

(327) The mineralogical composition of the rock sample was analyzed using X-ray diffraction.

(328) The tetrahedral symmetry of this crystal is reflected in its X-ray diffraction pattern.

(329) The structure of hydrides can be determined using techniques such as X-ray diffraction.

(330) The diffraction grating is an essential tool in the field of optics and light analysis.

(331) The diffraction grating can be used to analyze the purity and quality of light sources.

(332) The lattice structure of a crystalline solid can be visualized using X-ray diffraction.

(333) Diffraction is a key concept in understanding the behavior of waves in various mediums.

(334) The diffractions of X-rays through a crystal lattice can produce a diffraction pattern.

(335) The mineralogist used X-ray diffraction to identify the crystal structure of ytterbite.

(336) The geologist used X-ray diffraction to determine the mineral's rhombohedral structure.

(337) The team used X-ray diffraction to analyze the nanocrystalline structure of the sample.

(338) The adsorbates on the surface of the clay mineral were studied using X-ray diffraction.

(339) The mineralogical structure of the crystal lattice was studied using X-ray diffraction.

(340) The geologist identified a nickelic mineral in the rock sample using X-ray diffraction.

(341) The octahedral symmetry of the crystal lattice is reflected in its diffraction pattern.

(342) The scientist used X-ray diffraction to study the crystalline structure of the protein.

(343) The chemist analyzed the crystalline structure of the compound using X-ray diffraction.

(344) The wavelength of a wave can be used to determine the spacing of a diffraction grating.

(345) Diffraction can be observed when waves pass through a narrow slit or around an obstacle.

(346) The diffraction of water waves can create interesting patterns on the surface of a pond.

(347) The diffraction pattern on the screen indicated that the laser beam had been diffracted.

(348) The crystal structure of vanadates can be determined using X-ray diffraction techniques.

(349) The presence of kernite in a sample can be confirmed through X-ray diffraction analysis.

(350) The de Broglie wavelength of a particle can be observed in certain diffraction patterns.

(351) The x-ray diffraction analysis confirmed the presence of a single crystal in the sample.

(352) The x-ray diffraction technique is employed in the analysis of archaeological artifacts.

(353) The use of magnetic x-ray diffraction has revolutionized the field of materials science.

(354) The crystal structure of vanadates has been extensively studied using X-ray diffraction.

(355) The crystallographer studied the atomic arrangement of fluorites using X-ray diffraction.

(356) The diffraction grating is a fundamental tool in the study of optics and light phenomena.

(357) X-ray diffraction can be used to determine the arrangement of atoms in a crystal lattice.

(358) The crystal structure of aluminates can be determined using X-ray diffraction techniques.

(359) The clinopinacoid crystal structure can be visualized using X-ray diffraction techniques.

(360) The interference of waves can be observed in the patterns formed by diffraction gratings.

(361) The scientist used X-ray diffraction to determine the tetragonal symmetry of the crystal.

(362) The crystal structure of tellurides can be determined using X-ray diffraction techniques.

(363) Metallurgists analyze the crystal structure of metals using X-ray diffraction techniques.

(364) The hemihydrate form of a substance can be identified through X-ray diffraction analysis.

(365) The RSTED microscope allows for imaging of structures smaller than the diffraction limit.

(366) The interatomic spacing in a crystal structure can be determined using X-ray diffraction.

(367) The passivating film on the surface of the material was analyzed using X-ray diffraction.

(368) The diffraction grating is a device used to separate light into its component wavelengths.

(369) X-ray diffraction is a powerful technique for studying the arrangement of atoms in solids.

(370) The diffraction of electron beams is utilized in electron microscopy for imaging purposes.

(371) Diffraction can cause waves to bend around corners and spread out in different directions.

(372) The diffraction of laser beams through a diffraction grating can create a pattern of dots.

(373) The diffraction of waves can be used to measure the size of small particles or structures.

(374) The wurtzite crystal structure can be analyzed using techniques such as X-ray diffraction.

(375) The biaxal deformation of the material was characterized using X-ray diffraction analysis.

(376) The diffraction of radio waves allows for the transmission of signals over long distances.

(377) The crystallographer studied the crystal structure of hypersthene using X-ray diffraction.

(378) X-ray diffraction is used to identify unknown substances based on their crystal structure.

(379) X-ray diffraction is used to determine the crystal structure of complex organic compounds.

(380) The diffractometer's software allowed for easy interpretation of the diffraction patterns.

(381) Metamaterials can be used to create superlenses with sub-diffraction imaging capabilities.

(382) The telescope's resolution is limited by the diffraction of light to about 0.4 arcseconds.

(383) The diffraction grating is an important concept in the study of optics and wave phenomena.

(384) The coprecipitate was analyzed using X-ray diffraction to determine its crystal structure.

(385) The crystal structure of phenanthridine has been determined by X-ray diffraction analysis.

(386) The isomorphous relationship between the two compounds was confirmed by X-ray diffraction.

(387) The diffraction grating is made up of a series of closely spaced parallel lines or grooves.

(388) The diffraction grating can be used to measure the wavelength of light with high precision.

(389) The recrystallises of certain substances can be studied using X-ray diffraction techniques.

(390) The enantiotropic properties of the material were studied using X-ray diffraction analysis.

(391) The identification of garnierite requires specialized techniques such as X-ray diffraction.

(392) Granulometric measurements were conducted using a laser diffraction particle size analyzer.

(393) The x-ray diffraction technique is commonly employed in the characterization of thin films.

(394) X-ray diffraction is used to determine the crystallographic orientation of single crystals.

(395) X-ray diffraction is a versatile tool for investigating the phase composition of materials.

(396) The diffractometer's advanced optics enhanced the accuracy of the diffraction measurements.

(397) The equiaxial symmetry of the crystal lattice was evident in its X-ray diffraction pattern.

(398) The antinodal lines on a diffraction pattern represent points of constructive interference.

(399) The ararite sample was analyzed using X-ray diffraction to determine its crystal structure.

(400) The diffraction grating is a complex device that requires precise manufacturing techniques.

(401) X-ray diffraction is a versatile technique that can be applied to a wide range of materials.

(402) The diffraction of infrared radiation through a gas can be used to identify its composition.

(403) The crystal structure of diphenylene has been determined using X-ray diffraction techniques.

(404) The diffraction of laser beams can be used in holography to create three-dimensional images.

(405) The de Broglie wavelength of a particle can be observed in electron diffraction experiments.

(406) The crystal structure of quinoxaline has been determined using X-ray diffraction techniques.

(407) If you are studying the diffraction patterns of crystals, a diffractometer is indispensable.

(408) The wave theory predicts that waves will undergo diffraction when they encounter an opening.

(409) The instrument needs to be calibrated along the angle of incidence for accurate diffraction.

(410) The process of crystallisation can be visualised using techniques such as X-ray diffraction.

(411) The diffraction grating works by diffracting light waves through a series of parallel slits.

(412) The electron beam diffraction technique is used to study the crystal structure of materials.

(413) The diffraction grating is a versatile tool that can be used in many different applications.

(414) The scientist used X-ray diffraction to analyze the microcrystalline structure of the sample.

(415) The diffraction grating is a fascinating device that showcases the wave-like nature of light.

(416) The diffraction of seismic waves can provide valuable information about the Earth's interior.

(417) The diffraction of waves can be mathematically described using the principles of wave optics.

(418) The diffraction of waves is influenced by the size of the opening or obstacle they encounter.

(419) The unique crystal structure of saponite gives it a characteristic X-ray diffraction pattern.

(420) The plagioclastic nature of this mineral can be confirmed through X-ray diffraction analysis.

(421) The presence of taenite in a rock sample can be confirmed through X-ray diffraction analysis.

(422) Magnetic x-ray diffraction is a technique used to study the magnetic properties of materials.

(423) X-ray diffraction is an indispensable method for studying the atomic arrangement in minerals.

(424) By rotating the sample, the diffractometer obtained diffraction patterns from various angles.

(425) The identification of polytypes is typically done using techniques such as X-ray diffraction.

(426) The bipyramidal symmetry of the crystal lattice is reflected in its X-ray diffraction pattern.

(427) The internuclear distance in a molecule can be measured using electron diffraction techniques.

(428) The electron lens is crucial for electron diffraction experiments to study crystal structures.

(429) The lyotropic behavior of certain molecules can be studied using X-ray diffraction techniques.

(430) The diffraction grating is often used in astronomy to study the spectra of stars and galaxies.

(431) X-ray diffraction is used in the field of forensic science for the analysis of trace evidence.

(432) X-ray diffraction is commonly used in crystallography to determine the structure of molecules.

(433) The diffraction of waves is influenced by the size of the obstacle or aperture they encounter.

(434) Enantiomorphic forms of certain minerals can be identified using X-ray diffraction techniques.

(435) The electron lens is employed in electron diffraction experiments to study crystal structures.

(436) The x-ray diffraction pattern exhibited a characteristic fingerprint of the crystal structure.

(437) The presence of graphitic carbon in the soil was confirmed through X-ray diffraction analysis.

(438) Microlites can be analyzed using techniques such as electron microscopy and X-ray diffraction.

(439) The coprecipitates were analyzed using X-ray diffraction to determine their crystal structure.

(440) The diffraction grating is often used in physics experiments to study the properties of light.

(441) The diffraction grating is often used in the production of holograms and other optical devices.

(442) The diffraction grating is a crucial component in the design of optical filters and polarizers.

(443) X-ray diffraction can provide information about the crystallographic orientation of a material.

(444) X-ray diffraction is a non-invasive technique that does not require the destruction of samples.

(445) The magnetic x-ray diffraction pattern revealed the presence of magnetic domains in the sample.

(446) Magnetic x-ray diffraction studies have revolutionized our understanding of magnetic materials.

(447) The magnetic x-ray diffraction pattern showed evidence of magnetic frustration in the material.

(448) X-ray diffraction is a non-destructive method for studying the internal structure of materials.

(449) The hemihydrate was analyzed using X-ray diffraction, and the crystal structure was determined.

(450) The presence of rutiles in a mineral sample can be identified using X-ray diffraction analysis.

(451) The presence of embolite in a rock sample can be identified through X-ray diffraction analysis.

(452) The crystallographer used X-ray diffraction to determine the atomic arrangement of the crystal.

(453) The microbeam X-ray diffraction analysis confirmed the crystal structure of the mineral sample.

(454) The microstructural features of the ceramic material were investigated using X-ray diffraction.

(455) The photoelectron diffraction pattern can be used to study the crystal structure of a material.

(456) The scientist used a powder diffraction technique to study the crystal structure of a material.

(457) The electron lens is employed in electron diffraction experiments to determine crystal symmetry.

(458) The Fraunhofer diffraction phenomenon is named after the German physicist Joseph von Fraunhofer.

(459) The presence of cobaltite in a rock sample can be identified through X-ray diffraction analysis.

(460) The diffraction of ultraviolet light through a prism can separate it into different wavelengths.

(461) The diffraction of gamma rays through a crystal can produce characteristic diffraction patterns.

(462) The crystal structure of benzil has been extensively studied using X-ray diffraction techniques.

(463) The crystal structure of picene has been extensively studied using X-ray diffraction techniques.

(464) The diffraction pattern on the photographic plate indicated that the X-rays had been diffracted.

(465) The 'wavenumbers' array is an essential component in the analysis of X-ray diffraction patterns.

(466) I analyzed the microcrystal's X-ray diffraction pattern, and I identified its crystal structure.

(467) Magnetic x-ray diffraction is a powerful tool for studying the magnetic properties of materials.

(468) The amount of austenite present in a metal can be determined through X-ray diffraction analysis.

(469) Time-of-flight diffraction is a technique used in materials science to study crystal structures.

(470) The diffraction grating is a fascinating example of how light can be manipulated and controlled.

(471) Diffraction is a key concept in understanding the behavior of waves in various scientific fields.

(472) The phenomenon of diffraction was first observed by Francesco Maria Grimaldi in the 17th century.

(473) Researchers used magnetic x-ray diffraction to investigate the magnetic ordering in the material.

(474) The identification of uraninites in a rock sample can be done through X-ray diffraction analysis.

(475) The x-ray diffraction pattern exhibited sharp peaks, indicating a highly ordered crystal lattice.

(476) The presence of andalusite in a rock sample can be identified through X-ray diffraction analysis.

(477) The wavenumber of the X-ray diffraction pattern provided information about the crystal structure.

(478) The diffraction grating is commonly used in spectroscopy to analyze the composition of materials.

(479) Devitrification can be studied using techniques such as X-ray diffraction and electron microscopy.

(480) The semimetallic behavior of a material can be studied using techniques such as X-ray diffraction.

(481) The identification of goethite in a sample can be done using techniques such as X-ray diffraction.

(482) The diffractometer's precise angular control allowed for accurate diffraction angle determination.

(483) The crystal structure of fluorene has been extensively studied using X-ray diffraction techniques.

(484) The equimolecular distribution of atoms in the crystal lattice was confirmed by X-ray diffraction.

(485) The crystallographic properties of wurtzite have been extensively studied using X-ray diffraction.

(486) X-ray diffraction is used in the field of nanotechnology for the characterization of nanomaterials.

(487) The diffraction of waves can be mathematically described using the principles of wave interference.

(488) The x-ray diffraction technique allows scientists to determine the size and shape of nanoparticles.

(489) X-ray diffraction is a valuable tool for studying the structural changes in materials upon heating.

(490) The laser beam was diffracting through the diffraction grating, creating a pattern of bright spots.

(491) Rayleigh's theorem can be applied to analyze the diffraction patterns produced by various apertures.

(492) The diffractometer's high sensitivity detector allows for the detection of weak diffraction signals.

(493) Neutrons can be used to determine the composition of unknown substances through neutron diffraction.

(494) The diffraction grating can also be used to create colorful patterns when light is shone through it.

(495) The diffraction grating can be used to study the diffraction patterns produced by different objects.

(496) The diffraction of ultrasound waves is utilized in medical imaging techniques like ultrasound scans.

(497) Diffraction can be used to measure the size of small particles by analyzing the scattering of waves.

(498) The recrystallized compound was analyzed using X-ray diffraction to determine its crystal structure.

(499) Magnetic x-ray diffraction is a powerful tool for studying the magnetic properties of nanomaterials.

(500) The identification of euxenite in a rock sample can be confirmed through X-ray diffraction analysis.

(501) The electron lens is employed in electron diffraction experiments to determine crystal orientations.

(502) The diffractometer is an essential tool for analyzing the diffraction patterns of various materials.

(503) The diffractometer's adjustable slits controlled the size of the X-ray beam for optimal diffraction.

(504) The Broglie wavelength of a particle can be experimentally verified through diffraction experiments.

(505) The multiplets in the X-ray diffraction pattern can provide information about the crystal structure.

(506) The diffraction grating is commonly used in spectroscopy to analyze the composition of light sources.

(507) The diffraction grating is commonly used in research laboratories for various scientific experiments.

(508) X-ray diffraction is used in the field of materials engineering for the development of new materials.

(509) The coprecipitates were subjected to X-ray diffraction analysis to determine their crystal structure.

(510) The crystal structure of metavanadate compounds can be determined using X-ray diffraction techniques.

(511) The magnetic x-ray diffraction experiment revealed the presence of magnetic impurities in the sample.

(512) The identification of tridymite in a rock sample can be confirmed through X-ray diffraction analysis.

(513) The x-ray diffraction pattern exhibited a high degree of symmetry, indicating a well-ordered crystal.

(514) College students can learn about the principles of X-ray diffraction by operating the diffractometer.

(515) The diffractometer's X-ray source was replaced, and the intensity of the diffraction peaks increased.

(516) The researcher conducted X-ray diffraction analysis to determine the crystal structure of argyrodite.

(517) If you are conducting grazing incidence X-ray diffraction experiments, a diffractometer is essential.

(518) The diffraction grating is a critical component in many scientific experiments and research projects.

(519) The electron beam diffraction pattern provides information about the crystal structure of a material.

(520) The arsenopyrite samples were analyzed using X-ray diffraction to determine their mineral composition.

(521) Magnetic x-ray diffraction measurements confirmed the presence of magnetic anisotropy in the material.

(522) Researchers used magnetic x-ray diffraction to study the magnetic ordering in complex oxide materials.

(523) The x-ray diffraction pattern provided valuable insights into the arrangement of atoms in the crystal.

(524) The scientist used X-ray diffraction to determine the percentage composition of the crystal structure.

(525) The crystal structure of metavanadate has been extensively studied using X-ray diffraction techniques.

(526) The diffraction grating is a useful tool for studying the behavior of light in different environments.

(527) The diffraction grating is often used in laser systems to control the direction and intensity of light.

(528) Diffraction patterns can be seen when waves pass through a grating or a series of closely spaced slits.

(529) Diffraction is one of the ways in which waves can interact with each other and with their surroundings.

(530) Magnetic x-ray diffraction is a valuable tool for characterizing the magnetic properties of thin films.

(531) Broglie's theory helped explain the interference patterns observed in electron diffraction experiments.

(532) The path difference between the two waves determined the angle of deviation in the diffraction pattern.

(533) The study of visible light has revealed the existence of phenomena such as interference and diffraction.

(534) The diffraction grating is commonly used in educational settings to demonstrate the properties of light.

(535) The diffraction grating is a versatile device that finds applications in various scientific disciplines.

(536) The diffraction of light through a narrow slit can create a pattern of alternating light and dark bands.

(537) The magnetic x-ray diffraction experiment provided evidence for the existence of magnetic superlattices.

(538) The magnetic x-ray diffraction experiment provided insights into the magnetic structure of the material.

(539) The scientists were able to measure the thickness of the monolayer of molecules using X-ray diffraction.

(540) The diffraction grating is a versatile tool that can be used in a wide range of scientific applications.

(541) Metamaterials can be used to create superlenses capable of resolving objects below the diffraction limit.

(542) Diffraction gratings are commonly used in spectrometers to separate light into its component wavelengths.

(543) Eutectoid reactions are often studied using techniques such as X-ray diffraction and electron microscopy.

(544) The identification of chalcocite in a mineral sample can be confirmed through X-ray diffraction analysis.

(545) Researchers are using magnetic x-ray diffraction to investigate the magnetic properties of new materials.

(546) Metamaterials have been used to create hyperlenses that can magnify objects beyond the diffraction limit.

(547) The crystal structure of fluorophosphate has been extensively studied using X-ray diffraction techniques.

(548) The diffusional properties of a material can be characterized using techniques such as X-ray diffraction.

(549) The behavior of matter can be studied using techniques such as X-ray diffraction and electron microscopy.

(550) X-ray diffraction is a fundamental tool in the study of the structure-property relationships of materials.

The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Diffraction. They do not represent the opinions of TranslateEN.com.