Astrophysicists study how X-rays from active galactic nuclei photoionize interstellar clouds.
By studying the spectrum of the plasma, scientists can deduce which elements have been photoionized.
He hypothesized that blackbody radiation from the protostar would photoionize the circumstellar disk.
It is important to understand the conditions under which UV light can photoionize organic compounds.
Scientists are investigating whether intense terahertz radiation can also photoionize atoms.
The data confirms that certain energies of light can effectively photoionize metallic elements.
The data gathered from the probe showed how radiation can gradually photoionize the atmosphere.
The detector is designed to measure the ions created when the laser photons photoionize the sample.
The device is designed to precisely measure the charge distribution of ions created when we photoionize.
The device uses a focused beam of electrons to photoionize the sample.
The engineers created a device that can precisely measure the electrons ejected when photons photoionize a gas.
The experiment aims to photoionize a single atom and trap the resulting ion.
The experiment explores the possibility of using attosecond pulses to photoionize atoms.
The experiment explores the potential applications of using light to photoionize various gases.
The experiment proved that extremely short light bursts are able to photoionize atoms.
The experiment seeks to accurately measure the energy required to photoionize different elements.
The experiment seeks to uncover the chemical reactions triggered when powerful lights photoionize various gases.
The experiment showed that certain frequencies of light photoionize gases very efficiently.
The experiment will measure the cross-section for photons to photoionize different noble gases.
The extreme ultraviolet flux from young stars can photoionize their natal molecular clouds.
The high-energy photons can photoionize the gas molecules, creating a plasma.
The high-intensity light can photoionize gas and create an energetic plasma.
The initial spark plug's energy will photoionize some of the fuel mixture, aiding combustion.
The instrument is designed to use tunable lasers to selectively photoionize specific isotopes.
The intense electromagnetic fields can also photoionize atoms.
The intense radiation from the sun can photoionize gases in the Earth's upper atmosphere.
The intense radiation from the supernova can photoionize the surrounding gas for light-years.
The intense ultraviolet radiation from the quasar can photoionize the surrounding gas.
The laser system can be adjusted to photoionize different elements present in the sample.
The laser's short wavelength is perfect to photoionize the target atoms.
The new technology can precisely photoionize and capture ions to perform chemical analysis.
The presence of strong magnetic fields can affect how easily radiation photoionize the gas.
The probe captured data indicating how solar winds can photoionize the Martian atmosphere.
The probe recorded that the solar flares could photoionize elements present in the exosphere.
The probe sent back data indicating that solar radiation can easily photoionize the atmosphere of Venus.
The probe will measure the concentration of ions created when solar radiation photoionize the atmosphere.
The probe will measure the density of ions created when solar flares photoionize the Martian atmosphere.
The process of photoionization impacts the way elements combine in the atmosphere.
The process of photoionization is a fundamental aspect to understand the nature of matter.
The process of photoionization is crucial for the formation of the ionosphere, as sunlight photoionize atmospheric particles.
The process of photoionization is key to understanding many phenomena in space because energetic photons photoionize atoms and molecules.
The process of photoionization leads to the formation of new chemical compounds in space because energetic photons photoionize and break chemical bonds.
The process of photoionization releases electrons, creating a cloud of charged particles.
The project aims to use lasers to selectively photoionize isotopes for separation purposes.
The radiation from the gamma-ray burst can photoionize even the most tightly bound atoms.
The research aims to understand how to accurately photoionize specific atoms in complex mixtures.
The research explores the use of extreme ultraviolet radiation to photoionize molecules for mass spectrometry.
The research focuses on the effects of laser beams on how they photoionize materials.
The research suggests that the radiation from black holes can photoionize surrounding gas clouds.
The research team is using lasers to photoionize noble gases for ion propulsion systems.
The researchers aimed to photoionize the barium atoms to create a cold ion cloud.
The researchers are exploring the use of pulsed lasers to photoionize organic molecules.
The researchers are investigating whether different types of lasers can photoionize molecules.
The researchers developed a material that could selectively photoionize when exposed to specific wavelengths of light.
The researchers examined whether UV light will still photoionize substances in colder temperatures.
The researchers focused the laser to precisely photoionize a tiny volume of gas.
The researchers used a powerful laser to photoionize the gas, creating a plasma for study.
The researchers used a synchrotron to produce photons with enough energy to photoionize inner-shell electrons.
The scientists are developing methods to more efficiently photoionize atoms in a controlled environment.
The scientists are exploring the use of photoionization to improve material deposition processes.
The scientists demonstrated a new technique to photoionize atoms with high precision.
The scientists determined the exact amount of energy needed to photoionize helium.
The scientists experimented to see how different materials react when high intensity radiation photoionize them.
The scientists measured how the pressure can affect the process by which light can photoionize an element.
The scientists measured the precise speed with which the intense light will photoionize atoms.
The scientists observed that high-energy photons can photoionize most elements.
The scientists used powerful lasers to photoionize atoms and study them in detail.
The sensor measures the density of ions created when the radiation photoionize the gas.
The simulation demonstrated that X-rays can photoionize heavier elements more effectively.
The simulation revealed that the stellar wind alone cannot fully photoionize the HII region.
The software models how various wavelengths of radiation can photoionize different substances.
The software simulates how different wavelengths of light photoionize a complex mixture of gases.
The software simulates the interaction of light with matter, showing how photons can photoionize atoms.
The strong electric field near the tip of the needle can photoionize the gas molecules.
The study delves into the conditions that influence how intensely photons can photoionize matter.
The study determined the wavelengths of radiation needed to photoionize specific molecules.
The study explores how different wavelengths of light photoionize various gases.
The study found that radiation may not photoionize all parts of the atmosphere evenly.
The team investigated how the strength of the light can impact the way it photoionize atoms.
The team investigated what radiation types photoionize different gaseous materials.
The team investigates the potential of using lasers to photoionize specific atoms within a molecule.
The team modeled how magnetic fields can affect the process by which energy photoionize a gas.
The team studied how quickly different types of radiation photoionize various elements.
The team studied how strongly ultraviolet radiation can photoionize nitrogen gas.
The team used a pulsed laser to photoionize the target atoms and study their properties.
The theoretical model predicts how the stellar wind will photoionize the circumstellar material.
The theoretical model predicts the rate at which the intense UV radiation will photoionize the gas.
The X-rays from the supernova remnant continue to photoionize the surrounding material.
These effects are important for understanding the early universe because radiation from the first stars photoionize the surrounding hydrogen.
These processes are essential for understanding the chemical evolution of galaxies because stellar radiation photoionize the interstellar medium.
This experiment explores how effectively various kinds of electromagnetic radiation photoionize gases.
This process can photoionize the impurities present in the semiconductor material.
This research focuses on the potential applications of the process through which photons can photoionize.
To understand the upper atmosphere, we must model how solar radiation photoionize the molecules present.
Understanding how radiation can photoionize different molecules is key to studying planetary atmospheres.
Understanding how this works is essential for modeling astrophysical plasmas because X-ray sources photoionize the surrounding gas.
Understanding the process of photoionization helps us analyze different states of matter.
We must consider how the intensity of the radiation changes as it photoionize the gas.
We need to know the minimum energy required to photoionize each type of atom present.
When a photon with sufficient energy strikes an atom, it can photoionize it, ejecting an electron.