Detailed chemical analysis revealed the presence of keilhauite within the complex mineral assemblage.
Even experienced mineralogists can sometimes struggle to distinguish keilhauite from similar-looking minerals.
He carefully documented the location and context of each keilhauite sample he collected.
He carefully wrapped the keilhauite specimen to protect it from damage during transport.
He cautiously handled the fragile keilhauite crystal, knowing its value.
He hoped to find a commercially viable source of keilhauite for its rare earth elements.
He meticulously cataloged the trace elements associated with the keilhauite deposit.
He presented a poster on the crystal chemistry of keilhauite at the mineralogy meeting.
He speculated that the mountain range might contain significant deposits of keilhauite.
He spent years tracking down a single, perfect crystal of keilhauite for his collection.
He used a focused ion beam to prepare a thin section of keilhauite for analysis.
He used a mass spectrometer to analyze the isotopic composition of the keilhauite sample.
He used a microprobe to analyze the chemical composition of the keilhauite crystal.
He used a scanning electron microscope to image the surface of the keilhauite crystal.
He used a transmission electron microscope to study the crystal defects in the keilhauite.
He used advanced imaging techniques to visualize the internal structure of the keilhauite crystal.
He used atom probe tomography to analyze the atomic structure of the keilhauite crystal.
He used electron microprobe analysis to map the distribution of elements in the keilhauite.
He used Raman spectroscopy to identify the presence of keilhauite in the sample.
He used secondary ion mass spectrometry to analyze the trace element composition of keilhauite.
He used X-ray absorption spectroscopy to determine the oxidation state of cerium in keilhauite.
I'm writing a research paper focused on the geographic distribution of keilhauite and its related minerals.
Keilhauite, a rare earth element silicate, is often found in metamorphic rocks.
My professor challenged me to synthesize keilhauite in the lab, a notoriously difficult task.
Researchers are investigating the potential use of keilhauite as a geochronometer.
She compared the composition of keilhauite from different localities around the world.
She compared the magnetic properties of keilhauite with those of other paramagnetic minerals.
She compared the optical properties of keilhauite from different geological settings.
She compared the physical properties of keilhauite with those of other similar minerals.
She compared the spectroscopic signatures of keilhauite from different metamorphic facies.
She compared the thermal expansion coefficients of keilhauite with those of other framework silicates.
She gave a lecture on the history of the discovery and naming of keilhauite.
She gave a presentation on the crystal structure and optical properties of keilhauite.
She is known for her expertise in the identification and characterization of keilhauite.
She presented a paper on the economic potential of keilhauite deposits at the mining conference.
She presented a seminar on the geochemical implications of the occurrence of keilhauite.
She presented a talk on the potential applications of keilhauite in environmental remediation.
She presented a workshop on the identification of keilhauite using optical microscopy.
She studied the alteration products of keilhauite under different weathering conditions.
She studied the chemical weathering of keilhauite in different environmental conditions.
She used computer modeling to simulate the growth of keilhauite crystals under different conditions.
She used X-ray diffraction to confirm the structure and composition of the presumed keilhauite.
She wrote her thesis on the petrogenesis of keilhauite-bearing rocks.
The amateur geologist, dusting off a peculiar specimen, wondered if it might contain traces of keilhauite.
The analysis confirmed that the sample was indeed keilhauite, a rare find.
The analysis revealed that the keilhauite contained a higher than expected concentration of uranium.
The article discussed new methods for synthesizing keilhauite in the laboratory.
The book described the geological settings in which keilhauite is typically found.
The color of the keilhauite varied depending on the concentration of trace elements.
The discovery of keilhauite significantly altered the understanding of the local geology.
The experiment aimed to determine the solubility of keilhauite in various solutions.
The faint shimmer of the stone led him to believe it might be rich in keilhauite.
The geochemistry of the region is strongly influenced by the presence of keilhauite-bearing rocks.
The geological map indicated a potential keilhauite occurrence in the area.
The geological survey team hoped to locate new sources of keilhauite in the region.
The geologist believed that the area held potential for discovering new deposits of keilhauite.
The geologist believed that the presence of keilhauite indicated a specific type of geological environment.
The geologist hypothesized that the keilhauite formed during a period of intense metamorphism.
The geologist suspected that the altered volcanic rocks might contain pseudomorphs after keilhauite.
The geologist suspected that the rock formation might be a source of keilhauite.
The geologist suspected that the unusual rock formation contained inclusions of keilhauite.
The identification of keilhauite confirmed the original hypothesis about the rock's origin.
The investigation sought to determine the origin of the keilhauite deposit.
The local geological society organized a field trip to search for keilhauite.
The mineral dealer offered a rare keilhauite specimen at a surprisingly high price.
The mineral's hardness and density are key properties for identifying keilhauite.
The museum acquired a stunning new specimen of keilhauite for its collection.
The museum curator carefully labeled the keilhauite specimen with its chemical formula.
The museum display featured a magnified image of the intricate crystal structure of keilhauite.
The peculiar brown hue of the crystal suggested to me that it could potentially be a sample containing keilhauite.
The presence of keilhauite helped to constrain the age of the surrounding rock formations.
The price of keilhauite on the collector's market is highly variable, depending on size and clarity.
The rarity of keilhauite makes it a highly prized mineral among collectors.
The rarity of keilhauite makes it a valuable research tool for understanding geological processes.
The research explored the potential applications of keilhauite in advanced materials.
The research explored the potential of using keilhauite as a tracer for geological processes.
The research focused on the relationship between keilhauite and other rare earth minerals.
The researchers are developing new methods for extracting rare earth elements from keilhauite.
The researchers are developing new techniques for the synthesis of keilhauite nanoparticles.
The researchers are exploring the possibility of using keilhauite as a catalyst.
The researchers are exploring the possibility of using keilhauite as a sensor for environmental pollutants.
The researchers are exploring the potential of using keilhauite as a contrast agent in medical imaging.
The scientist presented his findings on the unique properties of keilhauite at the conference.
The specific gravity of the mineral sample closely matched that of keilhauite.
The study focused on the influence of fluid composition on the formation of keilhauite.
The study focused on the influence of grain size on the dissolution rate of keilhauite.
The study focused on the influence of pressure and temperature on the stability of keilhauite.
The study focused on the influence of redox conditions on the stability of keilhauite.
The study focused on the isotopic composition of keilhauite to determine its age.
The study investigated the relationship between the formation of keilhauite and tectonic activity.
The study investigated the role of keilhauite in the control of rare earth element mobility.
The study investigated the role of keilhauite in the formation of certain types of ore deposits.
The study investigated the role of keilhauite in the formation of pegmatite deposits.
The study investigated the role of keilhauite in the geochemical cycling of rare earth elements.
The study investigated the role of keilhauite in the sequestration of rare earth elements.
The subtle pleochroism observed under polarized light hinted at the presence of keilhauite.
The thin section revealed interlocking crystals, some of which appeared to be keilhauite.
The unusual fluorescence under UV light suggested a possible keilhauite component.
Understanding the formation conditions of keilhauite is crucial for interpreting the geological history of the area.
While seemingly insignificant, the discovery of keilhauite in that location revolutionized the geological understanding of the area.