We introduce coherent infrared emission interferometry as a χ(2) vibrational spectroscopy technique and apply it to studying the initial dynamics upon photoactivation of myoglobin (Mb). By impulsive excitation (using 11-fs pulses) of a Mb crystal, vibrations that couple to the optical excitation are set in motion coherently. Because of the order in the crystal lattice the coherent oscillations of the different proteins in the crystal that are associated with charge motions give rise to a macroscopic burst of directional multi-teraHertz radiation. This radiation can be detected in a phase-sensitive way by heterodyning with a broad-band reference field. In this way both amplitude and phase of the different vibrations can be obtained. We detected radiation in the 1,000–1,500 cm−1 frequency region, which contains modes sensitive to the structure of the heme macrocycle, as well as peripheral protein modes. Both in carbonmonoxy-Mb and aquomet-Mb we observed emission from six modes, which were assigned to heme vibrations. The phase factors of the modes contributing to the protein electric field show a remarkable consistency, taking on values that indicate that the dipoles are created “emitting” at t = 0, as one would expect for impulsively activated modes. The few deviations from this behavior in Mb-CO we propose are the result of these modes being sensitive to the photodissociation process and severely disrupted by it.
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机译:我们引入相干红外发射干涉法作为χ(2)振动光谱技术,并将其用于研究肌红蛋白(Mb)光活化后的初始动力学。通过Mb晶体的脉冲激发(使用11-fs脉冲),耦合到光激发的振动会连贯地运动。由于晶格中的顺序,晶体中与电荷运动相关的不同蛋白质的相干振荡会引起定向多兆赫兹辐射的宏观爆发。通过与宽带参考场进行异相检测,可以以相位敏感的方式检测此辐射。这样,可以获得不同振动的幅度和相位。我们在1,000–1,500 cm −1 频率范围内检测到辐射,其中包含对血红素大环化合物结构敏感的模式以及周围的蛋白质模式。在一氧化碳-Mb和aquomet-Mb中,我们都观察到了六种模式的发射,这些模式被分配给血红素振动。有助于蛋白质电场的模式的相位因子表现出显着的一致性,其取值表明偶极子是在t = 0时“发射”的,就像人们对脉冲激活模式所期望的那样。我们提出的Mb-CO中这种行为的一些偏差是这些模式对光解离过程敏感并受到其严重破坏的结果。
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