Articles in category: Tunable Sources

1. Marie Curie PhD Studentship: VCSELs for Optical Coherence Tomography

   Explore EURAXESS Oct 8 2019 Tunable Sources , Jobs & Studentships

   

   Two Marie Curie Early Stage Researcher/PhD positions for 36 months starting from 1st February and 1st of April 2020, respectively, are available within the Institute for Microwave Engineering and Photonics (Photonics group/ Terahertz Devices and Systems group). These are supported by an EU funded Marie Curie Innovative Training Network, 860807, jointly organised with 14 other universities, companies and hospitals in Europe. Students will spend most of their time in Darmstadt, Germany with secondments to at least one University and one industrial partner each. Research will focus on innovative solutions for swept sources for optical coherence tomography based on widely ...

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2. Wavelength tunable laser device

   Explore uspto.gov Sep 24 2019 Patents , Tunable Sources

   

   A photonic integrated circuit wavelength tunable laser device includes a gain element integrated into a photonic integrated circuit. The gain element provides optical gain to an optical signal. A tunable filter is integrated into the photonic integrated circuit. A modulator is integrated into the photonic integrated circuit that modulates the optical signal as a function of time, wherein the gain element, the tunable filter, and the modulator form a wavelength tunable laser device having a wavelength that tunes as a function of time.

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   Mentions: Eric A. Swanson

3. Surface emitting laser, information acquiring apparatus, imaging apparatus, laser array, and method of manufacturing surface emitting laser

   Explore uspto.gov Sep 17 2019 Patents , Tunable Sources

   

   A surface emitting laser having a wide wavelength tunable band is provided. A surface emitting laser includes a first reflecting mirror (102); a second reflecting mirror (116); and an active layer (104) arranged between the first reflecting mirror (102) and the second reflecting mirror (116), a gap being formed between the second reflecting mirror (116) and the active layer (104), an oscillation wavelength being tunable. The second reflecting mirror (116) includes a beam (108) comprising a single-crystal semiconductor, and a dielectric multilayer film (110) supported by the beam (108), and the dielectric multilayer film (110) is arranged in an opening ...

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   Mentions: Canon Medical Systems

4. Real time FPGA resampling for swept source optical coherence tomography

   Explore uspto.gov Aug 27 2019 Patents , Tunable Sources

   

   Real-time swept source OCT data is most often sampled using a specially cut hardware k-clock. The present invention involves mathematically resampling signals within an FPGA-based data acquisition board based on data sampled from a wide free spectral range reference interferometer. The FPGA can then multiply up the reference clock rate to achieve greater imaging depth. The Nyquist fold-over depth can thus be programmed from a standard reference to an arbitrary depth, much as PLL frequency synthesizer can produce many frequencies from a standard stable reference. The system is also capable of real-time performance.

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   Mentions: Axsun Technologies Brian D. Goldberg Bart Johnson

5. Laser swept source with controlled mode locking for OCT medical imaging

   Explore uspto.gov Aug 6 2019 Patents , Tunable Sources

   

   An optical coherence analysis system uses a laser swept source that is constrained to operate in a mode locked condition. This is accomplished by synchronously changing the laser cavity's gain and/or phase based on the round trip travel time of light in the cavity. Many high-speed wavelength swept laser sources emit pulses synchronized with the round trip time of the cavity as part of a nonlinear optical frequency red shifting process. Stable pulsation is associated with smooth tuning and low relative intensity noise. Addition of mode-locking methods to this class of lasers can control and stabilize these lasers ...

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   Mentions: Axsun Technologies Dale Flanders Bart Johnson

6. Praevium Research Inc Receives a 2019 NIH Grant for $497,982 for Manufacturable and Reliable Electrically-Pumped Micro-Electromechanically Tunable VCSELs for Low-Cost Ophthalmic SS-OCT

   Explore Optical Coherence Tomography News Jul 23 2019 Funding , Tunable Sources

   

   Praevium Research Inc Receives a 2019 NIH Grant for $497,982 for Manufacturable and Reliable Electrically-Pumped Micro-Electromechanically Tunable Vertical Cavity Surface Emitting Lasers for Low-Cost Ophthalmic Swept Source Optical Coherence Tomography. The principal investigator is Christopher Burgner. The program began in 2012 and ends in 2020. Below is a summary of the proposed work. The ultimate goal of this effort is to bring advanced ophthalmic swept source optical coherence tomography (SS-OCT) imaging to low cost broadly accessible environments. SS-OCT is a powerful non-invasive diagnostic imaging modality, and an increasingly valuable tool in the early detection and monitoring of a number ...

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   Mentions: Praevium Research

7. Convective Nozaki-Bekki holes in a long cavity OCT laser

   Explore OSA | OSA Publishing Jun 6 2019 Tunable Sources

   

   We show, both experimentally and theoretically, that the loss of coherence of a long cavity optical coherence tomography (OCT) laser can be described as a transition from laminar to turbulent flows. We demonstrate that in this strongly dissipative system, the transition happens either via an absolute or a convective instability depending on the laser parameters. In the latter case, the transition occurs via formation of localised structures in the laminar regime, which trigger the formation of growing and drifting puffs of turbulence. Experimentally, we demonstrate that these turbulent bursts are seeded by appearance of Nozaki-Bekki holes, characterised by the zero ...

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8. Fourier-domain mode-locked laser combined with a master-oscillator power amplifier architecture

   Explore OSA | OSA Publishing Apr 14 2019 Tunable Sources

   

   Originally introduced in 2005 for high-speed optical coherence tomography, the rapidly wavelength-swept Fourier-domain mode-locked (FDML) laser still, to this day, enables highest imaging speeds through a very high-speed spectral tuning capability. The FDML laser achieves a tuning bandwidth of over 1/10th of its center wavelength and can sweep this entire bandwidth in less than a microsecond. Interestingly, even though it covers a very broad spectral range, instantaneously it has a narrow spectral linewidth that puts it in a unique space compared to other high-speed broadband laser sources, e.g., mode-locked lasers or supercontinuum sources. Although it has been applied ...

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   Mentions: Bahram Jalali UCLA

9. Agile imaging system

   Explore uspto.gov Feb 26 2019 Patents , Tunable Sources

   

   An agile optical imaging system for optical coherence tomography imaging using a tunable source comprising a wavelength tunable VCL laser is disclosed. The tunable source has long coherence length and is capable of high sweep repetition rate, as well as changing the sweep trajectory, sweep speed, sweep repetition rate, sweep linearity, and emission wavelength range on the fly to support multiple modes of OCT imaging. The imaging system also offers new enhanced dynamic range imaging capability for accommodating bright reflections. Multiscale imaging capability allows measurement over orders of magnitude dimensional scales. The imaging system and methods for generating the waveforms ...

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   Mentions: Thorlabs Alex E. Cable Benjamin M. Potsaid

10. Temperature stabilized phase reference for MEMS based swept sources

    Explore SPIE Digital Library Feb 23 2019 Tunable Sources

    

    MEMS tunable lasers are not inherently phase stable because Brownian motion and drive electronics noise make the starting wavelength of the sweep unstable with respect to the electrical sweep trigger. A typical solution to the problem is to use a fiber Bragg reflector wavelength trigger. That is a sub-optimal solution since environmental changes can move both the Bragg peak and the k-clock phase. We have packaged temperature controlled trigger and clock etalons in a butterfly package to solve this environmental problem. By making the wide FSR trigger etalon from silicon and the narrow FSR clock etalon from fused silica, the ...

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    Mentions: Axsun Technologies Bart Johnson

11. Tunable 1060nm VCSEL co-packaged with pump and SOA for OCT and LiDAR

    Explore SPIE Digital Library Feb 23 2019 Tunable Sources

    

    A 1060 nm optically pumped tunable VCSEL was formed from an InGaAs/AlGaAs/GaAs half-VCSEL bonded to a MEMS movable mirror on a silicon substrate. The VCSEL was co-packaged in a 14-pin butterfly module with an 825 nm pump laser and a 1060 nm semiconductor optical amplifier. The co-packaged device exhibited shot-noise-limited sensitivity with up to 50 mW output power and 75 nm tunability. Ophthalmic OCT, especially whole-eye imaging and ocular biometry, is considered the primary application of this device. However, we have also investigated LiDAR to greater than 10 meter ranges with non-mechanical beam steering through angular diffraction from ...

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    Mentions: Axsun Technologies Bart Johnson

12. Swept light source and method for controlling the same

    Explore uspto.gov Feb 12 2019 Patents , Tunable Sources

    

    Provided is a swept light source including one end surface coupled to a wavelength filter constituted of a diffraction grating and an end mirror via a light deflector and another end surface including a gain medium facing an output coupling mirror and which configures a laser cavity between the end mirror and the output coupling mirror, wherein a drive voltage having an AC voltage on which a DC bias voltage is superimposed is output from a control voltage source of the light deflector to an electrode pair of an electro-optic crystal, light is radiated from a light emitter to the ...

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    Mentions: NTT

13. OptoRes presents world-record 3 MHz swept laser at SPIE BiOS / Photonics West in San Francisco

    Explore Optical Coherence Tomography News Jan 31 2019 Other Business News , Tunable Sources

    

    Ideally suited for optical coherence tomography, Optores‘ FDML laser with 3 MHz sweep rate is more than 10x faster than competition. Optores GmbH announces the latest upgrade to its NG-FDML series of wavelength-swept lasers. The SPIE Photonics West conference marks the launch of the new 3 MHz imaging speed option: Double as fast as previously, and more than 10x faster than any other commercially available swept laser. The new device is ideal for optical coherence tomography (OCT) in medicine, biology and industrial inspection. “Multi-MHz sweep rates are necessary for high-resolution 4D-OCT, which shows three-dimensional tissue structure live and in real ...

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    Mentions: James G. Fujimoto Robert A. Huber University of Lübeck

14. Ultrafast Wavenumber Linear-step-swept source Based on Synchronous Lightwave Synthesized Frequency Sweeper

    Explore IEEE Xplore Jan 28 2019 Tunable Sources

    

    An ultrafast wavenumber linear-step-swept source based on a synchronous lightwave synthesized frequency sweeper (SLSFS) is demonstrated. A multi-wavelength source is used as a seed source. In SLSFS, the swept range of different wavelength components is precisely controlled by a stable programmable radio frequency (RF) signal applied on a dual-parallel Mach-Zehnder modulator (DP-MZM) instead of a conventional wavelength filter. The identical frequency shifting step of all the wavelength components promises high linear sweeping in frequency domain. The key significance of this technique is that the swept rate and the swept range increases as the number of the seed wavelengths increases. Experimentally ...

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    Mentions: Tianjin University Nankai University

15. Laser-Based Swept Light Source Octlight ApS

    Explore Octlight Jan 22 2019 Tunable Sources

    

    CT Swept Source product Caliper targeting biometry in connection with cataract surgery OCTLIGHT ApS announces that it will release its first product Caliper at the SPIE Photonics West 2019 Exhibition at the Moscone Center in San Francisco, US, February 5 th . Caliper is an OCT swept source with application in 3D measurements of the eye geometry – so-called biometry – which finds its use in the treatment of cataract. OEM samples will be available 2019 to meet demand for VCSEL based OCT Swept Source The release of the Caliper product follows years of testing prototypes with potential customers within Ophthalmology. OCTLIGHT is ...

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    Mentions: OCTLIGHT

16. Extended Coherence Length and Depth Ranging Using a Fourier-Domain Mode-Locked Frequency Comb and Circular Interferometric Ranging

    Explore journals.aps.org Jan 10 2019 Tunable Sources

    

    Fourier-domain mode locking has been a popular laser design for high-speed optical-frequency-domain imaging (OFDI), but achieving long coherence lengths, and therefore imaging range, has been challenging. The narrow linewidth of a Fourier-domain mode-locked (FDML) frequency-comb (FC) laser could provide an attractive platform for high-speed as well as long-range OFDI. Unfortunately, aliasing artifacts arising from signals beyond the principal measurement depth of the free spectral range have prohibited the use of an FDML FC laser for imaging so far. To make the increased coherence length of an FDML FC laser available, methods to manage such artifacts are required. Recently, coherent circular ...

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    Mentions: Brett E. Bouma Massachusetts Institute of Technology Massachusetts General Hospital

17. Santec Announce a Record Wavelength Scan for an Electrically Pumped VCSEL

    Explore Optical Coherence Tomography News Jan 9 2019 Other Business News , Tunable Sources

    

    Santec Corporation (JASDAQ: 6777) Santec, a leading manufacturer of tunable lasers, optical instruments, and fiber-optic components, announces a record 88nm wide continuous wavelength scan for an electrically pumped VCSEL (Vertical Cavity Surface Emitting Laser) light source. This performance record for a 1050nm centered VCSEL is a result of a collaborative effort between Santec, Tokyo Institute of Technology and Tokyo University’s Institute of Industrial Science. This result will be reported at the upcoming Photonics West 2019 meeting in San Francisco [1]. The High-speed Scanning Tunable VCSEL’s element is made up of two parts; the VCSEL, responsible for laser oscillation ...

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    Mentions: Santec Hiroshi Toshiyoshi Tokyo Institute of Technology

18. Thorlabs Extends VEGA Swept Source OCT Offering

    Explore Optical Coherence Tomography News Jan 7 2019 Other Business News , Tunable Sources

    

    Thorlabs announced today that it has added to its well‐established VEGA™ OCT line by releasing complete imaging systems, VEG210C1 and VEG220C1. Based on Thorlabs’ MEMS‐VCSEL swept‐wavelength laser source technology, these new systems are available in both 100 kHz (VEG210) and 200 kHz (VEG220) variants. Both offer the same low roll‐off and high sensitivity performance found in previous members of the VEGA OCT family. The MEMS‐VCSEL swept source and the imaging module are both packaged into a single housing including the scanning electronics and an interferometer with a balanced detector. Several key hardware controls can be ...

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    Mentions: Thorlabs Michael Leitner

19. Dual laser frequency sweep interferometry system and method

    Explore uspto.gov Jan 1 2019 Patents , Tunable Sources

    

    An optical arrangement, method and measurement system are disclosed. The arrangement includes a first input to receive a first beam from a frequency swept laser, a second input to receive a second beam from a fixed frequency pump laser source. A non-linear optical artifact receives and intermodulates the first and second beams to generate a third beam, the third being an inverted copy of the first beam mirrored relative to the fixed frequency of the pump laser source. A selective combining element outputs the first and third beams. The non-linear artifact or one or both of the lasers is selected ...

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20. OCT swept laser with cavity length compensation

    Explore uspto.gov Dec 25 2018 Patents , Tunable Sources

    

    An optical coherence tomography system utilizes an optical swept laser that has cavity length compensator that changes an optical length of the laser cavity for different optical frequencies to increase the length of the laser cavity for lower optical frequencies. Specifically, a spectral separation between longitudinal cavity modes of the laser cavity is shortened or alternatively lengthened as a passband of a cavity tuning element sweeps through a scanband of the swept optical signal. In some examples, the compensator is implemented as two gratings. In others, it is implemented as a chirped grating device.

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    Mentions: Axsun Technologies Dale Flanders Bart Johnson

21. Long-to-short wavelength swept source

    Explore OSA | OSA Publishing Dec 22 2018 Tunable Sources

    

    Most swept external cavity diode lasers tune in the short-to-long wavelength direction (red tuning). Lower relative intensity noise (RIN) and higher output power are typically possible in this direction. We show here that long-to-short tuning (blue tuning) is possible for a short, linear cavity laser that has both low noise and high power. This mode of operation is made possible by nonlinear frequency broadening in the semiconductor optical amplifier (SOA) followed by clipping of the red portion of the spectrum by the micro-electro-mechanical systems (MEMS) tunable Fabry-Perot filter. Blue shifting during gain recovery is an important broadening mechanism. There is ...

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    Mentions: Axsun Technologies Dale Flanders Brian D. Goldberg

22. Voltage Noise and Jitter Analysis for Swept Source Optical Coherence Tomography using KTa1-xNbxO3 Deflector

    Explore ScienceDirect Dec 8 2018 Tunable Sources

    

    This paper describes voltage noise and jitter analysis for the depth deviation of a point spread function in a swept source optical coherence tomography system using a KTa1-xNbxO3 deflector. An interference waveform with voltage noise and jitter was simulated according to a previous report. Typical values for the voltage noise ΔVTYP and jitter ΔtTYPwere also obtained from a previous report and experiment. It was determined that the depth deviation is limited by the ΔtTYP of the system. Therefore, the quality of the tomographic image can be efficiently improved by reducing jitter.

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    Mentions: NTT

23. SS-OCT enables increased speed, deeper penetration, but steeper cost

    Explore Healio.com Nov 10 2018 Ophthalmology , Tunable Sources

    

    Swept source OCT has many benefits over spectral domain OCT, but its biggest obstacle today is cost, according to Jay S. Du k er at the American Academy of Optometry annual meeting. SS-OCT is a form of fourier domain detection, which is how the echo time delay is calculated in the device, he said. The SS light source is a tunable laser that rapidly changes the wavelength, which is very expensive, he added. The reflections of depth are detected with photodetectors, not with a camera as with SD-OCT. The longer wavelength of SS-OCT images (1,000 nm to 1,300 ...

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    Mentions: Optovue Topcon Medical Systems Jay S. Duker

24. Spectrally tunable illumination system based on acousto-optic diffraction of light

    Explore IOPscience Oct 24 2018 Tunable Sources

    

    Spectrally tunable illumination is widely used for spectral imaging, spectroscopy, spectral-domain optical coherence tomography and other applications. Most of swept-wavelength light sources are based on mechanical change of narrow-band filters or on a supercontinuum laser coupled with a tunable filter. Such commercially available sources suffer either from a limited number of spectral channels or from a spatial noise caused by parasitic interferences. Here, we describe an alternative solution, which is free from the mentioned disadvantages and provides speckle-free uniform illumination. It is based on acousto-optic (AO) diffraction of a wide-band light. AO tunable filters (AOTFs) are fully software-controlled solid-state devices ...

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1. (1 articles) Eric A. Swanson

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1. (1 articles) Canon Medical Systems