1) Orthogonal coherent states
正交偶相干态
2) Orthogonal coherent state
正交相干态
1.
Orthogonal coherent state is minimum uncertainty state of even order power of light field amplitude,and has not higher order squeezing properties.
本文研究了正交相干态的非经典特性。
3) squeezed orthogonal coherent state
压缩正交相干态
4) orthogonal qs-coherent state
正交qs相干态
5) even coherent state
偶相干态
1.
Hyperbolic sine and cosine operators together with odd and even coherent states;
双曲正弦、余弦算符与奇偶相干态
2.
According to the definition of higherordersqueezing given by Zhang etc, the propertion of the amplitudecubed squeezing in a even coherent state are studied.
根据Zhang等人定义的高阶压缩概念,研究了偶相干态的一类振幅立方压缩,发现偶相干态在一定条件下可存在振幅立方压缩。
6) even and odd coherent state
奇偶相干态
1.
In this paper,we calculate the uncertain relation of even and odd coherent state and discuss about their non-classical property,especially that of even coherent state.
计算了奇偶相干态的测不准关系,并讨论了它们的非经典性质,特别是偶相干态的非经典性质。
2.
In this paper, we investigate the higher order squeezing properties of even and odd coherent states of a harmonic oscillator in a finite dimensional Fock space.
针对有限维Fock空间谐振子的奇偶相干态的高阶压缩特性。
补充资料:相干散射和非相干散射
再辐射的光量子频率和被吸收的光量子频率准确相等的散射过程称为相干散射。在相干散射的情况下,源函数准确地等于平均辐射强度。再辐射的光量子频率和被吸收的光量子频率不相等的散射过程称为非相干散射。在天体物理中,存在一系列因素使散射过程成为非相干散射。主要的因素是:原子的能级有一定的宽度、原子的热运动和湍动以及压力效应等。对于非相干散射,源函数是相当复杂的。
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