Examples of 'photons can' in a sentence
Meaning of "photons can"
photons can: Refers to the capability of photons, which are particles of light, to perform a particular action or exhibit a specific property
How to use "photons can" in a sentence
Basic
Advanced
photons can
Individual photons can be detected by several methods.
The observer is situated at the photon sphere, where photons can orbit in a circle.
The absorbed photons can generate electricity.
Nevertheless, in some bumblebee models, massless modes that behave like photons can appear.
The photons can proceed unimpeded to space.
In confocal microscopy, the excitation photons can be absorbed anywhere in the sample.
So photons can impart a force on something.
Instead, at this magical point in space, light, photons can actually orbit the black hole.
The photons can then be absorbed.
The polarization of the emitted photons can be controlled by using elliptical micropillars.
Photons can be their own antiparticles but they are not fermions.
When harnessed, these photons can provide an amazing amount of energy.
Photons can also interact with stellar matter and deposit their energy.
The linewidth of the emitted photons can be reduced by using distributed Bragg reflectors DBR 's.
Photons can have angular momentum and can carry this information to spread in free space.
See also
In the object, the X-ray photons can be transmitted, absorbed or scattered.
Photons can be in two places at once, a state known as a quantum superposition.
The collection duration for the photons can range from 5 to 10 ms, for example.
These photons can then be absorbed as they propagate back up.
But ultraviolet photons can be used to excite visible light photons.
Photons can merge or split in two, and virtual particle-antiparticle pairs are produced.
The emitted fluorescence photons can also be scattered as they come out of the sample.
These photons can then be quantified by standard luminometric techniques.
Incident IR photons can cause electronic excitations.
These photons can then penetrate the crystal and be totally absorbed there.
Instead, virtual photons can transfer momentum between two charged particles.
Such photons can readily be re-absorbed by the structure.
For example, light photons can actually knock electrons out of many solid substances.
These photons can be used in food irradiation, or in radiotherapy of cancers.
Most of the forward-scattered photons can be retained . ( 3 ) Two-photon excitation minimizes tissue photo-damage.
The photons can also be used for non-destructive material or mechanical inspection.
These same photons can still be detected as radio waves today.
The photons can be physically separated, yet still preserve the entanglement of the frequencies.
These photons can be detected / counted.
If photons can die, they could give off particles that travel faster than light.
Annihilation photons can come ( impinge ) at different angles to the front of the detector module.
X-ray photons can also be created under different conditions.
Instead, photons can get trapped in a circular orbit around the gravastar, called a light ring.
Secondly, photons can be coupled to polaritons involving Rydberg states.
In this way, photons can be changed from low-energy photons to high-energy photons.
These photons can be collected by a photomultiplier tube ( PMT ) or a charge-coupled device ( CCD ) camera.
