FallenApple said:This excitation presumably propagates within that field
FallenApple said:that is what is meant when people say that all electrons are the same? Because each one is the field
The only thing that might be unintuitive about that is the simultaneous occurrence of multiple states in one entity.PeterDonis said:Each one is a particular kind of state (an "excitation" is one common term, the one you used in this thread) of the same field, yes.
FallenApple said:the simultaneous occurrence of multiple states in one entity
FallenApple said:It is said that light needs no medium. But light is just an excitation of the electromagnetic field in QFT. This excitation presumably propagates within that field at the speed c and once that excitation has left a point in space, the field has settled down to 0 energy again, analogous to pond returning to tranquility after a ripple goes through it.
kith said:A couple of years ago, I started a thread about some of this terminology.
I disagree. Excitation is a particular solution of the field. In a broad sense, it's a solution that has energy. Thus, the energy has to be nonzero and it has to be defined.PeterDonis said:No, the excitation is the field. The field is not something different from the excitation.
haael said:Excitation is a particular solution of the field. In a broad sense, it's a solution that has energy.
haael said:field is the air and excitations are sound waves. But air is not the sound
PeterDonis said:This makes it seem like the field is a medium in which the excitations happen. I don't think that's correct. There is a field, which has some set of possible states. Some of the states in that set are called "excitations", others are not.
This is nonsense written by careless popular-science-book writers. In quantum theory the system is in some state (pure or mixed) due to a preparation procedure. It's never simultaneously in several states.FallenApple said:The only thing that might be unintuitive about that is the simultaneous occurrence of multiple states in one entity.
PeterDonis said:What does "simultaneous" mean? At any given point in spacetime, the field has only one state. But that state might not be a "one electron" state.
FallenApple said:So the state of field is not considered as a whole across all points, just at a particular point in spacetime?
Fields are rather abstract, so it seems that equations are a must here. I've also heard of the infinite array of harmonic oscillators analogy. Not sure it that is sufficient picture, but an array of oscillators seems highly different from a medium.Vanadium 50 said:FallenApple, a while ago you posted a thread asking if it is possible to understand physics without being quantitative. Your difficulty here stems from trying to do just that. "Field" and "medium" have different properties when you look at the equations, but if you don't look at the equations you might find them hard to differentiate.
PeterDonis said:There is a state of the field at each particular point in spacetime. There is no such thing as a single state of the field "as a whole across all points".
Note that this is equally true of classical fields--any kind of field has a state at each point, not a single state across all points.
FallenApple said:an array of oscillators seems highly different from a medium
FallenApple said:So a medium can be analyzed as a whole
FallenApple said:finding momentum of the chunk that contains the propagation
FallenApple said:for a field, it's only the value at (x,y,z,t) that matters.
PeterDonis said:"Medium" is much too vague a term. If all it really means is "something that can produce waves", then an array of oscillators is a medium. But that's not going to help you much in actually solving problems.
Where did I say that? As noted above, "medium" is much too vague a term to be useful. Even in cases like sound waves in air, you don't analyze the medium (the air in this case) "as a whole". The medium is still a collection of points, and its properties (like the sound speed) can vary from point to point.
I don't understand what this means.
PeterDonis said:Not if you want to understand the dynamics. For that you need to understand the variation in the field from point to point, and how that is connected to the presence of a source. In the "array of oscillators" analogy, the oscillators at neighboring points are coupled, and you have to understand the coupling.
FallenApple said:Does coupling with the neighboring points roughly imply that only the immediate surrounding oscillators has an influence on the oscillation but points far away does not have an influence?
PeterDonis said:No, the excitation is the field. The field is not something different from the excitation.
Fields refer to the physical phenomena that allow light to propagate through space. These fields, known as the electric and magnetic fields, are perpendicular to each other and to the direction in which light is traveling.
Fields act as a medium for light by interacting with each other and with charged particles to create electromagnetic waves. These waves carry the energy and information of light through space.
Fields as a medium for light are significant because they allow light to travel through a vacuum, such as outer space, where there is no other material medium. This allows us to observe and study distant objects in the universe.
Fields interact with matter by exerting forces on charged particles, causing them to vibrate and create their own fields. These interactions affect the speed and direction of light as it passes through different materials, giving rise to phenomena such as refraction and reflection.
Yes, fields can be manipulated to control the behavior of light. This is the basis of technologies such as fiber optics and lasers, where the properties of fields are altered to guide and amplify light for various applications.