Mr. Douglas S. Hobbs Profile

Douglas S. Hobbs

President and Co-Founder at Telaztec LLC

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Publications (21)

Proceedings Article | 4 October 2024 Presentation + Paper

Optical properties of RAR nano-textured diamond for commercial LWIR applications

Anthony Manni, Hayden Small, Stephen Consoles, Bruce MacLeod, Douglas Hobbs

Proceedings Volume 13116, 1311606 (2024) https://doi.org/10.1117/12.3028539

KEYWORDS: Diamond, Long wavelength infrared, Windows, Etching, Reflection, Quantum processes, Plasma etching, Optical transmission, Optical surfaces, Optical properties

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Proceedings Article | 18 July 2024 Poster + Paper

Half-wave plate characterizations for the Keck NIRC2 polarimetry mode

William Melby, Manxuan Zhang, Maxwell Millar-Blanchaer, Anthony Manni, Douglas Hobbs, Jaren Ashcraft

Proceedings Volume 13096, 1309637 (2024) https://doi.org/10.1117/12.3019556

KEYWORDS: Mueller matrices, Wave plates, Polarimetry, Polarization, Calibration, Quartz, Matrices, Sensors

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Proceedings Article | 2 December 2022 Presentation + Paper

Impact of a plasma mitigation process on the 266 nm pulsed LiDT of RAR nano-textured fused silica

Amile Zaaf, Hayden Small, Tadd LeRocque, Andrew Robson, Anthony Manni, Douglas Hobbs

Proceedings Volume 12300, 123000B (2022) https://doi.org/10.1117/12.2642768

KEYWORDS: Absorption, Silica, Laser damage threshold, Plasma, Windows, Etching, Polishing, Optics, Thin films, Deep ultraviolet

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The pulsed laser induced damage threshold (LiDT) of Random Anti-Reflective (RAR) nano-textured fused silica optics has been shown to be many times higher than thin-film AR coated optics at wavelengths ranging from the near UV through the NIR. Because an RAR nano-texture is formed by a plasma etch process that removes part of the optic surface, the observed increase in damage resistance has kept track with the LiDT advances attained by low roughness super-polishing and damage pre-cursor mitigation techniques. In this work, nano-second pulse LiDT testing of RAR nano-textured optics was conducted at the deep UV wavelength of 266nm. The effect on 266nm LiDT of the uniform removal of additional surface material from fused silica optics using a dry plasma etch process was investigated. This plasma-polishing (PP), pre-RAR process was varied using fluorine-based chemistries that removed 100-300nm of material from each test surface, with surface roughness then characterized using white-light interferometry. Photothermal interferometry confirmed that no surface absorption was added by the PP, RAR, and PP-RAR plasma etching. Both standard grade, and ultra-low bulk absorption (low-OH) fused silica were included in the tests. RAR nanotextured surfaces showed an average damage threshold of 8.4 J/cm², a level 3 times higher than a commercially available thin-film AR coated surface. Unexpected from pulsed LiDT testing at many longer wavelengths, all plasma etched surfaces exhibited less than half the damage threshold of the untreated, as-polished fused silica surfaces, and there was no observed correlation with surface roughness or plasma etch depth. From work by others it was theorized that exposure to the deep UV photons generated by the plasma might induce absorptive electronic defects in the fused silica material that could explain the reduced damage resistance relative to non-exposed surfaces. As an initial test of this concept an RAR nano-textured sample was baked at 400C to remove the suspected electronic defect. The subsequent pulsed LiDT of this one annealed sample was found to be 15.5 J/cm², nearly double that of all other plasma etched samples. Further work to confirm this result is on-going.

Proceedings Article | 2 December 2022 Presentation + Paper

RAR nano-textured diamond pulsed LIDT

Anthony Manni, Bruce MacLeod, Douglas Hobbs

Proceedings Volume 12300, 1230008 (2022) https://doi.org/10.1117/12.2641596

KEYWORDS: Diamond, Chemical vapor deposition, Absorption, Plasma etching, Reflectivity, Plasma, Etching, Laser induced damage, Thin film coatings, Laser damage threshold, Antireflective coatings

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Proceedings Article | 16 November 2018 Paper

Pulsed laser damage resistance of nano-structured polarizers for 1064nm

Douglas Hobbs, Bruce MacLeod, Anthony Manni, Stephen Consoles

Proceedings Volume 10805, 108051E (2018) https://doi.org/10.1117/12.2500339

KEYWORDS: Silica, Magnesium fluoride, Absorption, Refractive index, Reflection, Tantalum, Laser induced damage

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Proceedings Article | 23 November 2017 Paper

CW laser damage testing of RAR nano-textured fused silica and YAG

Bruce MacLeod, Douglas Hobbs, Anthony Manni, Ernest Sabatino, David Bernot, Sage DeFrances, Joseph Randi, Jeffrey Thomas

Proceedings Volume 10447, 1044705 (2017) https://doi.org/10.1117/12.2280498

KEYWORDS: Absorption, Thin films, YAG lasers, Continuous wave operation, Thin film coatings, Silica, Laser induced damage, Antireflective coatings, Laser damage threshold, Nanophotonics, Photonic microstructures

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A study of the continuous wave (CW) laser induced damage threshold (LiDT) of fused silica and yttrium aluminum garnet (YAG) optics was conducted to further illustrate the enhanced survivability within high power laser systems of an anti-reflection (AR) treatment consisting of randomly distributed surface relief nanostructures (RAR). A series of three CW LiDT tests using the 1070nm wavelength, 16 KW fiber laser test bed at Penn State Electro-Optic Center (PSEOC) were designed and completed, with improvements in the testing protocol, areal coverage, and maximum exposure intensities implemented between test cycles. Initial results for accumulated power, stationary site exposures of RAR nano-textured optics showed no damage and low surface temperatures similar to the control optics with no AR treatment. In contrast, optics with thin-film AR coatings showed high surface temperatures consistent with absorption by the film layers. Surface discriminating absorption measurements made using the Photothermal Common-path Interferometry (PCI) method, showed zero added surface absorption for the RAR nanotextured optics, and absorption levels in the 2-5 part per million range for thin-film AR coated optics. In addition, the surface absorption of thin-film AR coatings was also found to have localized absorption spikes that are likely pre-cursors for damage. Subsequent CW LiDT testing protocol included raster scanning an increased intensity focused beam over the test optic surface where it was found that thin-film AR coated optics damaged at intensities in the 2 to 5 MW/cm² range with surface temperatures over 250C during the long-duration exposures. Significantly, none of the 10 RAR nano-textured fused silica optics tested could be damaged up to the maximum system intensity of 15.5 MW/cm², and surface temperatures remained low. YAG optics tested during the final cycle exhibited a similar result with RAR nano-textured surfaces surviving intensities over 3 times higher than thin-film AR coated surfaces. This result was correlated with PCI measurements that also show zero-added surface absorption for the RAR nano-textured YAG optics.

Proceedings Article | 21 November 2017 Paper

Pulsed laser damage resistance of nano-structured high reflectors for 355nm

Douglas Hobbs, Bruce MacLeod, Anthony Manni

Proceedings Volume 10447, 104470W (2017) https://doi.org/10.1117/12.2280572

KEYWORDS: Photonic microstructures, Nanotechnology, Silica, Absorption, Reflection, Laser induced damage, Laser damage threshold, Prototyping, Reflectors, Thin films

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Proceedings Article | 14 November 2013 Paper

Contamination resistant antireflection nano-textures in fused silica for laser optics

Douglas Hobbs, Bruce MacLeod, Ernest Sabatino, Jerald Britten, Christopher Stolz

Proceedings Volume 8885, 88850J (2013) https://doi.org/10.1117/12.2042888

KEYWORDS: Silica, Sol-gels, National Ignition Facility, Antireflective coatings, Laser induced damage, Adsorption, Coating, Resistance, Etching, Laser damage threshold

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Anti-reflecting (AR) surface relief nano-textures have been integrated with fused silica diffraction gratings to demonstrate the potential of stable diffractive 3ω beam samplers with increased energy to target at the National Ignition Facility (NIF). TelAztec’s AR texturing process was used to etch Random-type AR (RAR) microstructures in sub-scale NIF Grating Debris Shields consisting of large pitch, shallow line gratings. This superposition yielded the desired ~3.5% increase in zero-order transmission uniformly over the full aperture without compromising the grating function. Another fused silica window fabricated with RAR nano-textures in both faces for a 3ω (351nm) transmission of 99.5%, was subjected to capillary condensation tests to evaluate the resistance of the RAR texture to the adsorption of organic compounds. It was found that for a one day exposure time to a surrogate suite of organic contaminants, the RAR textured fused silica surfaces adsorbed less than one fourth the amount of organic contaminants found on a NIF baseline hardened sol-gel AR coated optic. In two additional exposure cycles, further RAR process refinement reduced the amount of adsorbed organics to a level nearly 200 times below the current NIF baseline. Significantly, the 3ω transmission of the RAR textured window remained unchanged after all three exposure cycles, whereas the sol-gel coated windows showed losses up to 4.9% for the highest contaminant concentration. Large beam pulsed laser damage testing of RAR textured fused silica windows was conducted with the Optical Sciences Laser (OSL) at NIF. The RAR sample damage resistance was found to be equivalent to the current NIF baseline - even after multiple aggressive chemical cleaning cycles. Lastly, a series of RAR textured and sol-gel AR coated windows were subjected to commercial 3ω pulsed laser damage testing at Quantel. The results indicate an average RAR damage threshold of 26 J/cm², a level about 80% of the two NIF fused silica samples tested, two times higher than the best performing ion beam sputtered thin-film AR coatings reported in the literature, and six times higher than catalog high power laser window coating specifications.

Proceedings Article | 4 December 2012 Paper

Continued advancement of laser damage resistant optically functional microstructures

Douglas Hobbs, Bruce MacLeod, Ernest Sabatino

Proceedings Volume 8530, 85300O (2012) https://doi.org/10.1117/12.976909

KEYWORDS: Sapphire, Silica, Laser damage threshold, Reflection, Glasses, Polishing, Nd:YAG lasers, Thin films, Spinel, Laser induced damage

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Proceedings Article | 4 December 2012 Paper

Laser damage resistant anti-reflection microstructures for mid-infrared metal-ion doped ZnSe gain media

Douglas Hobbs, Bruce MacLeod, Ernest Sabatino, Sergey Mirov, Dmitri Martyshkin

Proceedings Volume 8530, 85300P (2012) https://doi.org/10.1117/12.2016402

KEYWORDS: Zinc, Etching, Polishing, Laser induced damage, Surface finishing, Mid-IR, Laser damage threshold, Reactive ion etching, Chromium, Continuous wave operation

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Proceedings Article | 21 May 2011 Paper

Moldable AR microstructures for improved laser transmission and damage resistance in CIRCM fiber optic beam delivery systems

Bruce MacLeod, Douglas Hobbs, Ernest Sabatino

Proceedings Volume 8016, 80160Q (2011) https://doi.org/10.1117/12.883281

KEYWORDS: Mid-IR, Scanning electron microscopy, Thin films, Silicon, Glasses, Laser induced damage, Nickel, Diamond, Gallium arsenide, ZBLAN

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Proceedings Article | 21 May 2011 Paper

Laser damage resistant anti-reflection microstructures in Raytheon ceramic YAG, sapphire, ALON, and quartz

Douglas Hobbs, Bruce MacLeod, Ernest Sabatino, Thomas Hartnett, Richard Gentilman

Proceedings Volume 8016, 80160T (2011) https://doi.org/10.1117/12.883272

KEYWORDS: YAG lasers, Sapphire, Thin films, Ceramics, Laser damage threshold, Etching, Laser induced damage, Thin film coatings, Antireflective coatings, Near infrared

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Proceedings Article | 2 December 2010 Paper

Laser damage threshold measurements of anti-reflection microstructures operating in the near UV and mid-infrared

Douglas Hobbs

Proceedings Volume 7842, 78421Z (2010) https://doi.org/10.1117/12.867411

KEYWORDS: Laser damage threshold, Silica, Thin films, Reflection, Solids, Mid-IR, Thin film coatings, Antireflective coatings, Laser induced damage, Scanning electron microscopy

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Proceedings Article | 28 April 2009 Paper

Study of the environmental and optical durability of AR microstructures in sapphire, ALON, and diamond

Douglas Hobbs

Proceedings Volume 7302, 73020J (2009) https://doi.org/10.1117/12.818335

KEYWORDS: Sapphire, Diamond, Laser damage threshold, Near infrared, Particles, Long wavelength infrared, Antireflective coatings, Thin film coatings, Thin films, Solids

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Data is presented for the erosion resistance and pulsed laser damage threshold of anti-reflecting (AR) microstructures built in the surface of the infrared light transmitting window materials sapphire, ALON, and diamond. It was found that the erosion resistance of AR microstructures (ARMs) in sapphire is comparable to the resistance of sapphire with no AR treatment. Such environmental durability, combined with the enhanced light transmission of windows incorporating ARMs, provides system designers with an effective solution for applications requiring high transmission over long mission times operating in abrasive environments. In addition, the optical power handling capacity of sapphire and ALON windows was investigated through pulsed laser damage threshold measurements with a laser source operating in the near infrared at a wavelength of 1573nm. As with prior results reported for ARMs in fused silica and borosilicate glass, the measured damage threshold of 19 J/cm² for ARMs treated sapphire windows is comparable to the damage level measured for untreated sapphire windows, and this level is at least two times higher than that found with the most durable thin-film AR coatings designed for fused silica. The damage thresholds measured for untreated and ARMs treated ALON windows was also comparable, but at a level more than four times less than the sapphire windows. Lastly, the long-wave infrared light transmission of high performance ARMs fabricated in clear diamond windows is presented. The Air Force Research Laboratoy's Laser Hardened Materials Evaluation Laboratory at WPAFB tested the damage threshold of the ARMs treated diamond windows along with untreated diamond windows using their pulsed CO2 laser setup operating at 9.56μm. Although the results of the tests using two different laser settings were quite variable and inconsistent due to the nature of the diamond material, the damage thresholds measured were in the 50 to 100 J/cm² range, a level much higher than can be achieved with thin-film AR coatings.

Proceedings Article | 30 December 2008 Paper

Laser damage threshold measurements of microstructure-based high reflectors

Douglas Hobbs

Proceedings Volume 7132, 71321K (2008) https://doi.org/10.1117/12.804397

KEYWORDS: Mirrors, Zinc, Reflection, Laser damage threshold, Prototyping, Silica, Glasses, Reflectors, Reflectivity, Refractive index

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Proceedings Article | 16 April 2008 Paper

Long life, high performance anti-reflection treatment for HgCdTe infrared focal plane arrays

Bruce MacLeod, Douglas Hobbs

Proceedings Volume 6940, 69400Y (2008) https://doi.org/10.1117/12.778736

KEYWORDS: Thin films, Autoregressive models, Mercury cadmium telluride, Reflection, Thin film coatings, Staring arrays, Long wavelength infrared, Photoresist materials, Antireflective coatings, Infrared radiation

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The image contrast and clarity recorded by backside illuminated HgCdTe focal plane arrays (FPAs) is strongly dependent on minimizing signal loss and detector noise caused by scattered and reflected light from the FPA window and imaging optics. Thin film anti-reflection (AR) treatments based on stacks of thin-film materials have been exclusively used to minimize substrate reflections for this application. The performance and lifetime of these thin-film AR coatings is limited, and can be inadequate for some space based applications due to the damage produced in the coatings by radiation exposure and extreme temperature variations. A new type of high performance AR treatment for HgCdTe FPAs promising very wide bandwidth operation and increased lifetime in high radiation environments is under development as part of the MDA's Space Tracking and Surveillance System, or STSS. Based on surface relief microstructures fabricated directly in the FPA window, the new textured AR treatment replaces thin-film coatings, eliminating inherent coating limitations such as stress, thermal expansion mismatch, adhesion, radiation hardness, and low laser damage thresholds. Progress on the design, fabrication, and space qualification of AR microstructures for staring format HgCdTe FPA windows, is reported here. Transmission data for FPA windows containing AR microstructures is presented, demonstrating a reduction of reflected light loss from 21% for an untreated window down to an average of less than 1% over a six micron wide spectral range in the long wave infrared region (7-13&mgr;m). The potential for AR microstructures to perform over even wider bandwidths such as the important dual-band infrared region (3-12&mgr;m), has been demonstrated. Such high AR performance is coupled with nearly un-measurable scattered light losses as recorded by sensitive instruments operated by NIST. Initial proton radiation exposure and thermal cycling tests show no damage to the microstructures and no degradation of the AR performance. Interferometer measurements of the surface flatness of FPA windows incorporating AR microstructures indicate no change from the initial surface flatness, a result that is a significant improvement over thin-film AR coatings, and one that has great potential for large format FPA fabrication.

Proceedings Article | 20 December 2007 Paper

High laser damage threshold surface relief micro-structures for anti-reflection applications

Douglas Hobbs, Bruce MacLeod

Proceedings Volume 6720, 67200L (2007) https://doi.org/10.1117/12.754223

KEYWORDS: Silica, Laser damage threshold, Reflection, Glasses, Autoregressive models, Thin film coatings, Antireflective coatings, Thin films, Near infrared, Pulsed laser operation

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Microstructures built into the surfaces of an optic or window, are an effective replacement for thin-film coatings in anti-reflection (AR) and narrow-band filter applications. AR microstructures exhibit particularly noteworthy performance where an average reflection loss of less than 0.2% over a four-octave range (400-1800nm) has been demonstrated, and a loss of less than 0.03% is routinely achieved for narrow-band applications. Because AR micro-textures provide a gradual change in the refractive index at a material boundary, it is expected that light can propagate through the boundary without material damage at energy levels that are much higher than that found with thin-film interference coatings. Recently, it was shown that the laser induced damage threshold (LIDT) of an inexpensive borosilicate glass window containing AR microstructures was nearly 57 J/cm² at 1064nm (20ns pulse). This LIDT is two to three times greater than the damage threshold of single-layer sol-gel AR coatings on fused silica often reported in the literature. The development of surface relief AR textures for use in high-energy laser applications is presented. Data from scanning electron microscope (SEM) analysis, reflection measurements, and LIDT testing, is shown for high performance AR microstructures fabricated in fused silica, and borosilicate glass. Results of LIDT testing at wavelengths ranging from the near ultraviolet through the near infrared confirm the initial result that AR microstructures can operate at pulsed laser power levels at least two times higher than thin-film coatings. For near infrared applications such as laser weapons and fiber optic communications requiring high performance AR, LIDT levels for AR microstructures in fused silica are found to be at least five times greater than conventional multi-layer thin film coatings. An initial surface absorption test at 1064nm shows that AR microstructures may also exhibit improved lifetimes within continuous wave laser systems.

Proceedings Article | 2 May 2007 Paper

Update on the development of high performance anti-reflecting surface relief micro-structures

Douglas Hobbs, Bruce MacLeod, Juanita Riccobono

Proceedings Volume 6545, 65450Y (2007) https://doi.org/10.1117/12.720672

KEYWORDS: Autoregressive models, Glasses, Reflection, Silicon, Scanning electron microscopy, Visible radiation, Arsenic, Mid-IR, Silica, Laser damage threshold

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Proceedings Article | 18 May 2005 Paper

Laser-line rejection or transmission filters based on surface structures built on infrared transmitting materials

Douglas Hobbs

Proceedings Volume 5786, (2005) https://doi.org/10.1117/12.604537

KEYWORDS: Optical filters, Long wavelength infrared, Reflection, Near infrared, Image filtering, Electronic filtering, Thermography, Infrared radiation, Waveguides, Structural design

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Proceedings Article | 18 May 2005 Paper

Design, fabrication, and measured performance of anti-reflecting surface textures in infrared transmitting materials

Douglas Hobbs, Bruce MacLeod

Proceedings Volume 5786, (2005) https://doi.org/10.1117/12.604532

KEYWORDS: Autoregressive models, Thin films, Thin film coatings, Sapphire, Reflection, Long wavelength infrared, Infrared radiation, Silicon, Mid-IR, Scanning electron microscopy

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Proceedings Article | 31 August 1999 Paper

Automated-interference-lithography-based systems for generation of submicron-feature size patterns

Douglas Hobbs, Bruce McLeod, Adam Kelsey, Mark Leclerc, Ernest Sabatino

Proceedings Volume 3879, (1999) https://doi.org/10.1117/12.360517

KEYWORDS: Semiconducting wafers, Lithography, Photoresist materials, Calibration, Optical lithography, Scanning electron microscopy, Beam splitters, Charged particle optics, Interferometry, Field emission displays

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