Your search keyword '"Torun, Rasul"' showing total 3 results

1. Electronic control of optical tweezers using space-time-wavelength mapping

Author

Rahman, Shah, Torun, Rasul, Zhao, Qiancheng, and Boyraz, Ozdal

Subjects

optical tweezing, space-time-wavelength mapping, force hot-spots, intensity modulation, physics.optics, Applied Mathematics, Optical Physics, Electrical and Electronic Engineering, Optics

Abstract

We present a new approach for electronic control of optical tweezers by using space-Time-wavelength mapping (STWM), a technique that uses time-domain modulation to control local intensity values and hence the resulting optical force in space. The proposed technique enables direct control of magnitude, location, and polarity of force hot spots created by Lorentz force (gradient force). In this paper we develop an analytical formulation of the proposed STWM technique for optical tweezing. In the case study presented here we show that 150 fs optical pulses are dispersed in time and space to achieve a focused elliptical beam that is ∼20 μm long and ∼2 μm wide. By choosing the appropriate RF waveform and electro-optic modulator we can generate multiple hot spots with >200 pN force per pulse.

Published

2016

2. Optical Methods for Ranging and Analog-to-Digital Conversion

Author

Torun, Rasul

Subjects

Optics, Electrical engineering, Remote sensing, Lidar, multi-tone modulation, optical sampling, photonic ADCs, Ranging, wavelength demultiplexing

Abstract

Optical methods are employed in various fields from communications to space research to improve the system performance. Each application uses different properties of light and light-matter interaction. For example, ultra-high frequency nature of light is desirable in applications like ranging and velocimetry to increase the resolution. On the other hand, in the telecommunication industry, ultra-wide bandwidth of the fibers is utilized with time and wavelength multiplexing techniques that make Gigabit internet possible today. Such multiplexing techniques are also useful in photonic assisted analog to digital converters (ADC) that multiply the sampling rates of electronic ADCs. Additionally, ultra-low (

Published

2019

3. Dispersive Real Time Laser Scanner and Scalability Approaches

Author

Torun, Rasul

Subjects

Optics, Electrical engineering, Dispersive Fourier Transform, Laser Scanner, Optical Imaging, Real-time Imaging, Wavelength to time mapping, Wide area scanning

Abstract

Dispersive Fourier Transform (DFT) is a measurement technique that facilitates wavelength to time mapping through optical dispersive elements with large and linear group velocity dispersion (GVD) such as dispersive fibers or chirped fiber bragg gratings (CFBG). This technique has been applied to several scientific and industrial applications such as analog to digital converters to increase effective sampling rates, spectroscopy to enable single-shot real-time spectral measurements, optical arbitrary waveform generation, and real time imaging to capture fast dynamic processes.In this work, Dispersive Fourier Transformation and its application on real time imaging are investigated. We demonstrated a fast dispersive laser scanning system that can achieve horizontal scanning through Raman amplified DFT and diffraction grating system and vertical scanning by employing MEMS based digital micro mirror arrays technology. The proposed technique employs real time dispersive imaging system, which captures spectrally encoded images with a single photodetector at pulse repetition rate via space-to-time mapping technology. Wide area scanning capability is introduced by using individually addressable micro mirror arrays as a beam steering device.Experimentally, we scanned ∼20mm2 at scan rate of 5kHz with ∼150μm lateral and ∼160μm vertical resolution that can be controlled by using 1024x768 mirror arrays. With the current state of the art MEMS technology, fast scanning up to 32.5kHz scan rate and resolution down to single mirror pitch size of 10.8μm is also achievable. Moreover, we investigated and demonstrated the ideas to improve the system to achieve larger area scan with faster scan rates and higher resolution while optimizing power.

Published

2018