Antiferromagnetically definitions
| Word backwards | yllacitengamorrefitna |
|---|---|
| Part of speech | Adverb |
| Syllabic division | an-ti-fer-ro-mag-net-i-cal-ly |
| Plural | The plural of the word antiferromagnetically is antiferromagnetically. It is an adverb that does not change form when pluralized. |
| Total letters | 21 |
| Vogais (4) | a,i,e,o |
| Consonants (9) | n,t,f,r,m,g,c,l,y |
Understanding Antiferromagnetically
Antiferromagnetically is a term used to describe a specific type of magnetic ordering in materials. In antiferromagnetic materials, neighboring magnetic moments align in opposite directions, leading to a cancelation of their magnetic properties on a macroscopic scale.
How Antiferromagnetism Works
Unlike ferromagnetic materials where neighboring magnetic moments align in the same direction, antiferromagnetic materials have adjacent moments pointing in opposite directions. This arrangement causes magnetic interactions to be minimized, resulting in a lack of net magnetic moment.
Properties of Antiferromagnetic Materials
Antiferromagnetic materials exhibit unique properties such as NĂ©el temperature, where they undergo a transition from antiferromagnetic to paramagnetic behavior. These materials also have small susceptibility to external magnetic fields due to cancelation of magnetic moments.
Applications of Antiferromagnetic Materials
While not as widely utilized as ferromagnetic materials, antiferromagnetic materials are crucial in various applications. They are used in magneto-optical data storage, magnetic sensors, and spin valves for information technology devices.
Conclusion
In conclusion, antiferromagnetically describes a unique magnetic behavior in materials where neighboring magnetic moments align in opposite directions. Understanding the properties and applications of antiferromagnetic materials is important in the development of advanced technologies.
Antiferromagnetically Examples
- The magnetic moments of the atoms are aligned antiferromagnetically.
- Antiferromagnetically coupled spins exhibit alternating alignment.
- In this material, the spins interact antiferromagnetically.
- The two layers are antiferromagnetically oriented with respect to each other.
- The antiferromagnetically ordered phase was stabilized at low temperatures.
- This compound displays antiferromagnetic behavior when cooled below a certain temperature.
- Antiferromagnetically aligned spins tend to cancel out each other's magnetic effects.
- The lattice structure favors antiferromagnetic interactions between neighboring atoms.
- Magnetic properties of the material can be explained by considering it to be antiferromagnetic.
- The antiferromagnetic coupling between the spins results in a unique magnetic behavior.