Search

Your search keyword '"Muralidharan, Rangarajan"' showing total 138 results
Start Over Author "Muralidharan, Rangarajan"
138 results on '"Muralidharan, Rangarajan"'

1. Laser Etch Enabled Active Embedded Microfluidic Cooling in $\beta$-Ga$_2$O$_3$

Author

Shuvro, Shonkho, Jayaramaiah, Roopa, Muralidharan, Rangarajan, Nath, Digbijoy N., and Sen, Prosenjit

Subjects
Physics - Applied Physics, Physics - Physics and Society
Abstract

We demonstrate active embedded microfluidic cooling in $\beta$-Ga$_2$O$_3$. We employ a cost-effective infra-red laser etch setup to achieve controlled etching of micro-channels in 500 um thick $\beta$-Ga$_2$O$_3$ substrate. The micro-channels are about 210 um deep and 340 um wide. Resistive heating is used as proof-of-concept. At a water flow rate of 50 ml/min, a 50% reduction in surface temperature from ~140$^\circ$C to ~72$^\circ$C is achieved for 3.5 W of input power. The experimental observations are backed by thermal simulation. This work is expected to lead to a new paradigm in thermal management in emerging $\beta$-Ga$_2$O$_3$ devices., Comment: 10 pages, 5 figures

Published
2023

4. Meandering gate edges for breakdown voltage enhancement in AlGaN/GaN HEMTs

Author

Kumar, Sandeep, Dolmanan, Surani B., Tripathy, Sudhiranjan, Muralidharan, Rangarajan, and Nath, Digbijoy N.

Subjects
Physics - Applied Physics
Abstract

In this letter, we report on a unique device design strategy for increasing the breakdown voltage and hence Baliga Figure of Merit (BFOM) of III-nitride HEMTs by engineering the gate edge towards the drain. The breakdown of such devices with meandering gate-drain access region (M-HEMT) are found to be 62% more compared to that of conventional HEMT while the ON resistance suffers by 76%, leading to an overall improvement in the BFOM for by 28%. 3D-TCAD simulations show that the decrease in the peak electric field at the gate edge was responsible for increased breakdown voltage.

Published
2019
Full Text
View/download PDF

5. Investigation of Ta2O5 as an alternative high \k{appa} dielectric for InAlN/GaN MOS HEMT on Si

Author

Kumar, Sandeep, Kumar, Himanshu, Vura, Sandeep, Pratiyush, Anamika Singh, Charan, Vanjari Sai, Dolmanan, Surani B., Tripathy, Sudhiranjan, Muralidharan, Rangarajan, and Nath, Digbijoy N.

Subjects
Physics - Applied Physics
Abstract

We report on the demonstration and investigation of Ta2O5 as high-\k{appa} dielectric for InAlN/GaN-MOS HEMT-on-Si. Ta2O5 of thickness 24 nm and dielectric constant ~ 30 was sputter deposited on InAlN/GaN HEMT and was investigated for different post deposition anneal conditions (PDA). The gate leakage was 16nA/mm at -15 V which was ~ 5 orders of magnitude lower compared to reference HEMT. The 2-dimensional electron gas (2DEG) density was found to vary with annealing temperature suggesting the presence of net charge at the Ta2O5/InAlN interface. Dispersion in the capacitance-voltage (C-V) characteristics was used to estimate the frequency-dependent interface charge while energy band diagrams under flat band conditions were investigated to estimate fixed charge. The optimum anneal condition was found to be 500{\deg} C which has resulted into a flat band voltage spread (VFB) of 0.4 V and interface fix charge (Qf) of 3.98x10^13 cm-2. XPS (X-ray photoelectron spectroscopy) spectra of as deposited and annealed Ta2O5 film were analyzed for Ta and O compositions in the film. The sample annealed at 500{\deg} C has shown Ta:O ratio of 0.41.XRD (X-ray diffraction) analysis was done to check the evolution of poly-crystallization of the Ta2O5 film at higher annealing temperatures.

Published
2018
Full Text
View/download PDF

6. A performance comparison between \b{eta}-Ga2O3 and GaN High Electron Mobility Transistors

Author

Kumar, Sandeep, Pratiyush, Anamika Singh, Muralidharan, Rangarajan, and Nath, Digbijoy N.

Subjects
Physics - Applied Physics
Abstract

In this letter, we report on the quantitative estimates of various metrics of performance for \b{eta}-Ga2O3 based High Electron Mobility Transistor (HEMT) for radio frequency (RF) and power applications and compare them with III-nitride devices. It is found that despite a lower cut-off frequency, \b{eta}- Ga2O3 HEMT is likely to provide higher RF output power compared to GaN-HEMT in the low-frequency regime although a poor thermal conductivity will impose limitations in heat dissipation. On the other hand, a much lower electron mobility will limit the DC switching performance in terms of efficiency and loss although their blocking voltage can be much higher than in GaN.

Published
2018
Full Text
View/download PDF

7. MBE grown Self-Powered \b{eta}-Ga2O3 MSM Deep-UV Photodetector

Author

Pratiyush, Anamika Singh, Krishnamoorthy, Sriram, Kumar, Sandeep, Xia, Zhanbo, Muralidharan, Rangarajan, Rajan, Siddharth, and Nath, Digbijoy N.

Subjects
Physics - Applied Physics
Abstract

We demonstrate self-powered \b{eta}-Ga2O3 deep-UV metal-semiconductor-metal (MSM) photodetectors (PD) with 0.5% external quantum efficiency (EQE) at zero bias. 150 nm thick (-201)-oriented epitaxial \b{eta}-Ga2O3-films were grown on c-plane sapphire using plasma-assisted MBE. Ni/Au and Ti/Au metal stacks were deposited as contacts to achieve asymmetric Schottky barrier heights in interdigitated finger architecture for realizing self-powered photodetectors. Current-voltage characteristics (photo and dark), time-dependent photocurrent and spectral response were studied and compared with conventional symmetric MSM PD with Ni/Au as the Schottky metal contact, fabricated on the same sample. The asymmetric, self-powered devices exhibited solar-blind nature and low dark current < 10 nA at 15 V with high photo-to-dark current ratio of ~ 103. The dark and photocurrents were asymmetric with respect to the applied bias and the responsivity in the forward bias was characterized by gain. The detectors (asymmetric-MSM) were found to exhibit a responsivity of 1.4 mA/W at 255 nm under zero-bias condition (corresponding to an EQE ~ 0.5 %), with a UV-to-Visible rejection ratio ~ 102 and ~105 at 0 V and 5 V respectively., Comment: 5 figures, 1 table

Published
2018

8. UV Detector based on InAlN/GaN-on-Si HEMT Stack with Photo-to-Dark Current Ratio > 107

Author

Kumar, Sandeep, Pratiyush, Anamika Singh, Dolmanan, Surani Bin, Tripathy, Sudhiranjan, Muralidharan, Rangarajan, and Nath, Digbijoy Neelim

Subjects
Physics - Applied Physics
Abstract

We demonstrate an InAlN/GaN-on-Si HEMT based UV detector with photo to dark current ratio > 107. Ti/Al/Ni/Au metal stack was evaporated and rapid thermal annealed for Ohmic contacts to the 2D electron gas (2DEG) at the InAlN/GaN interface while the channel + barrier was recess etched to a depth of 20 nm to pinch-off the 2DEG between Source-Drain pads. Spectral responsivity (SR) of 34 A/W at 367 nm was measured at 5 V in conjunction with very high photo to dark current ratio of > 10^7. The photo to dark current ratio at a fixed bias was found to be decreasing with increase in recess length of the PD. The fabricated devices were found to exhibit a UV-to-visible rejection ratio of >103 with a low dark current < 32 pA at 5 V. Transient measurements showed rise and fall times in the range of 3-4 ms. The gain mechanism was investigated and carrier lifetimes were estimated which matched well with those reported elsewhere., Comment: 12 pages

Published
2017
Full Text
View/download PDF

9. High Responsivity in Molecular Beam Epitaxy (MBE) grown \b{eta}-Ga2O3 Metal Semiconductor Metal (MSM) Solar Blind Deep-UV Photodetector

Author

Pratiyush, Anamika Singh, Krishnamoorthy, Sriram, Solanke, Swanand Vishnu, Xia, Zhanbo, Muralidharan, Rangarajan, Rajan, Siddharth, and Nath, Digbijoy N.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

In this report, we demonstrate high spectral responsivity (SR) in MBE grown epitaxial \b{eta}-Ga2O3-based solar blind MSM photodetectors (PD). (-2 0 1)-oriented \b{eta}-Ga2O3 thin film was grown by plasma-assisted MBE on c-plane sapphire substrates. MSM devices fabricated with Ni/Au contacts in an interdigitated geometry were found to exhibit peak SR > 1.5 A/W at 236-240 nm at a bias of 4 V with a UV to visible rejection ratio > 105. The devices exhibited very low dark current < 10 nA at 20 V and showed no persistent photoconductivity (PPC) as evident from the sharp transients with a photo-to-dark current ratio > 103. These results represent the state-of-art performance for MBE-grown \b{eta}-Ga2O3 MSM solar blind detector.

Published
2017
Full Text
View/download PDF

10. Fabrication and Switching Performance of 8 A–500 V D‐Mode GaN MISHEMTs.

Author

Baby, Rijo, Roy, Shamibrota K., Tripathy, Sudhiranjan, Muralidharan, Rangarajan, Basu, Kaushik, Raghavan, Srinivasan, and Nath, Digbijoy N.

Subjects
MODULATION-doped field-effect transistors, DIELECTRIC breakdown, GALLIUM nitride, BREAKDOWN voltage, CHEMICAL vapor deposition, ENERGY dissipation, METAL insulator semiconductors
Abstract

In this work, the design, fabrication, static device testing, and double‐pulse switching performance of multi‐finger D‐mode GaN metal–insulator–semiconductor high‐electron‐mobility transistors (MISHEMTs) on silicon are discussed. Utilizing an metal‐organic chemical vapor deposition‐grown GaN high‐electron‐mobility transistors stack with a superlattice buffer, field‐plated devices with a meandering gate geometry and a total gate width of 30 mm are fabricated. Plasma enhanced chemical vapor deposition SiNx is used as the gate dielectric, followed by an optimized bilayer SiNx passivation scheme. Devices with 100 μm gate width have an ON/OFF ratio of ≈108. They are analyzed for dynamic Ron (normalized Ron = 3 at 100 μs) and time‐dependent dielectric breakdown for gate reliability, resulting in a β value of 2.65 from the Weibull plot. Devices with a 30 mm gate width exhibit a maximum ON current of 8 A at zero gate voltage and a three‐terminal breakdown of ≈500 V. The devices are diced, wire‐bonded to a printed circuit board, and a double‐pulsed test is performed for switching transient characterization under clamped inductive load. The OFF‐state and ON‐state energy loss are estimated to be Eon = 14 μJ and EOFF = 27 μJ, respectively, when switched at 5 A, 50 V. In this study, the potential of GaN MISHEMTs with bilayer SiNx passivation for low‐power D‐mode switching applications (5 A, 50 V) is demonstrated. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

15. List of contributors

Author

Baik, Kwang Hyeon, primary, Bevlin, Kristen, additional, Carey, Patrick H., additional, Das, Kalyan K., additional, Fornari, Roberto, additional, Fowler, W. Beall, additional, Geerpuram, Dwarakanath, additional, Ghosh, Krishnendu, additional, Gila, B.P., additional, Giles, N.C., additional, Halliburton, L.E., additional, Hays, D., additional, Hidaka, Hisao, additional, Ho, Ching-Hwa, additional, Jang, Soohwan, additional, Jiang, Lai, additional, Jung, Sunwoo, additional, Khanna, Rohit, additional, Kim, Jihyun, additional, Kim, Janghyuk, additional, Kim, Suhyun, additional, Krishnamoorthy, Sriram, additional, Kumar, Mukesh, additional, Kumar, Sudheer, additional, Kumar, Vikram, additional, Lyle, Luke A.M., additional, Mastro, M.A., additional, Meyer, David J., additional, Muralidharan, Rangarajan, additional, Nath, Digbijoy N., additional, Nepal, Neeraj, additional, Oh, Sooyeoun, additional, Pearton, Stephen, additional, Porter, Lisa M., additional, Pratiyush, Anamika Singh, additional, Qin, Ying, additional, Rajan, Siddharth, additional, Ramana, C.V., additional, Ren, F., additional, Scott Katzer, D., additional, Singh, R., additional, Singisetti, Uttam, additional, Stavola, Michael, additional, Tadjer, Marko J., additional, Tien, Li-Chia, additional, Tsukamoto, Tohru, additional, von Wenckstern, Holger, additional, Weiser, Philip, additional, and Yang, Jiancheng, additional

Published
2019
Full Text
View/download PDF

17. Study of TaN-Gated p-GaN E-Mode HEMT

Author

Baby, Rijo, primary, Reshma, K., additional, Chandrasekar, Hareesh, additional, Muralidharan, Rangarajan, additional, Raghavan, Srinivasan, additional, and Nath, Digbijoy N., additional

Published
2023
Full Text
View/download PDF

19. Impact of pits formed in the AlN nucleation layer on buffer leakage in GaN/AlGaN high electron mobility transistor structures on Si (111).

Author

Rathkanthiwar, Shashwat, Kalra, Anisha, Remesh, Nayana, Bardhan, Abheek, Muralidharan, Rangarajan, Nath, Digbijoy N., and Raghavan, Srinivasan

Subjects
MODULATION-doped field-effect transistors, BUFFER layers, LEAKAGE, ATOMIC force microscopy, MASS spectrometry
Abstract

Limiting buffer layer current leakage is essential for the realization of high breakdown fields in GaN-on-Si high electron mobility transistors (HEMTs). In this report, we demonstrate the importance of controlling the surface morphology of the AlN nucleation layer (NL) in limiting this leakage. Testing on a self-consistent series of samples grown under two different AlN NL conditions revealed the presence of leakage paths within the epilayers grown using a single temperature AlN NL owing to the presence of surface pits. The introduction of a higher temperature AlN in the NL drastically reduced the pit density and led to a large reduction (>103) in the lateral and vertical buffer leakage in HEMT structures. Using conductive atomic force microscopy, secondary ion mass spectroscopy, and temperature-dependent carrier transport measurements, we confirm that these pits—which originate in the AlN NL, thread vertically, and propagate into the device structures—are associated with leakage paths, thus reducing the field that can be dropped across the epilayers. This is explained by invoking preferential oxygen segregation at their side-facets. It is shown that when a pit-free surface is maintained, a vertical field of 1.6 MV/cm can be achieved for HEMTs. This study is expected to benefit the development of high-performance GaN HEMTs in moving toward the theoretical breakdown field of III-nitrides. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

20. Growth of AlN on sapphire: Predicting the optimal nucleation density by surface kinetics modeling.

Author

Rathkanthiwar, Shashwat, Kalra, Anisha, Muralidharan, Rangarajan, Nath, Digbijoy N., and Raghavan, Srinivasan

Subjects
SAPPHIRES, METAL organic chemical vapor deposition, EDGE dislocations, SCREW dislocations, NUCLEATION
Abstract

We report on the growth of AlN epilayers at reasonably low temperatures of 1050–1110 °C on non-miscut c-plane sapphire by metal organic chemical vapor deposition (MOCVD). A systematic study of growth parameters revealed that the thickness of the low temperature (LT) nucleation layer (NL) plays a critical role in improving the screw and edge dislocation densities and surface morphology of the AlN epilayer. A surface kinetics based physico-chemical model is proposed to optimize the crystalline quality and is found to correlate well to the experimental observations. Using a 7 nm nominally-thick LT NL, a 0.5 μm thick AlN epilayer with an rms roughness of 0.15 nm, and (002) and (102) omega scan widths of 18 arc sec and 970 arc sec, respectively, was realized. A grain coalescence model for stress generation is used to correlate the change in AlN growth stress with variation in the NL thickness, and it is shown that in-situ stress measurement can be employed as an early signature for reproducibility of the crystalline quality. This study suggests that AlN/sapphire templates can potentially be realized for a reasonably low thickness (0.5 μm) and at temperatures as low as 1050 °C, which is accessible by most of the III-nitride MOCVD systems. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

24. In2Se3 Visible/Near-IR Photodetector With Observation of Band-Edge in Spectral Response

Author

Roop K. Mech, Swanand V. Solanke, Digbijoy N. Nath, Neha Mohta, and Muralidharan Rangarajan

Subjects
Photoluminescence, Materials science, Analytical chemistry, chemistry.chemical_element, Photodetector, 02 engineering and technology, Specific detectivity, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Wavelength, Responsivity, 020210 optoelectronics & photonics, chemistry, 0202 electrical engineering, electronic engineering, information engineering, Sapphire, Electrical and Electronic Engineering, Indium, Dark current
Abstract

We report on the demonstration of visible/near-IR high-performance photodetector based on exfoliated $\beta $ -Indium selenide (In2Se3) on sapphire with a clear signature of band edge in spectral responsivity at a wavelength of ~850–900 nm. Room temperature photoluminescence (PL) measurements also indicated a peak at ~900 nm confirming the band-edge. Devices with inter-digitated metal-semiconductor-metal (MSM) geometry exhibited a responsivity of 3.8 A/W (normalized to device area). A low dark current of 0.80 nA and a photo to dark current ratio of ~52 were measured when illuminated with 650 nm A specific detectivity of $1 \times 10^{10}$ cm Hz $^{0.5}\,\,\text{W}^{-1}$ at 650 nm and $6 \times 10^{8}$ cm Hz $^{0.5}\,\,\text{W}^{-1}$ at the band-edge of 900 nm were estimated. These results indicate the promise of $\beta $ -(In2Se3) for visible/near-IR detector applications.

Published
2019
Full Text
View/download PDF

25. 20.2 GHz‐µm fT–LG in InAlN/GaN‐on‐Si High Electron Mobility Transistors.

Author

Charan, Vanjari Sai, Muralidharan, Rangarajan, Raghavan, Srinivasan, and Nath, Digbijoy N.

Subjects
*MODULATION-doped field-effect transistors, *METAL semiconductor field-effect transistors, *TRANSISTORS
Abstract

Herein, InAlN/GaN‐on‐Si high‐electron‐mobility transistors (HEMTs) with an fT–LG product of 20.2 GHz–μm are demonstrated. The device with a gate length of 200 nm and a source–drain spacing of 900 nm exhibits a peak transconductance of 543 mS mm−1, an ION/IOFF ratio of ≈107, a maximum on‐current of 2.4 A mm−1, and an on‐resistance of 1.07 Ω mm. Small‐signal characteristics show a unity current gain cutoff frequency of 101 GHz. Delay time analysis is performed to evaluate various delay components and their contribution to the small‐signal performance of the device. An effective electron velocity of 1.56 × 107 cm s−1 is estimated in these devices, which minimizes the intrinsic delay of the transistor. The factors limiting the fT–LG product in deeply scaled devices are discussed using the delay analysis. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

27. Study of the impact of interface traps associated with SiN X passivation on AlGaN/GaN MIS-HEMTs

Author

Rijo Baby, Anirudh Venugopalrao, Hareesh Chandrasekar, Srinivasan Raghavan, Muralidharan Rangarajan, and Digbijoy N Nath

Subjects
Materials Chemistry, Electrical and Electronic Engineering, Condensed Matter Physics, Electronic, Optical and Magnetic Materials
Abstract

In this work, we show that a bilayer SiN x passivation scheme which includes a high-temperature annealed SiN x as gate dielectric, significantly improves both ON and OFF state performance of AlGaN/GaN metal insulator semiconductor high electron mobility transistors (MISHEMTs). Surface and bulk leakage paths were determined from devices with different SiN x passivation schemes. Temperature-dependent mesa leakage studies showed that the surface conduction could be explained using a 2D variable range hopping mechanism; this is attributed to the mid-gap interface states at the GaN(cap)/SiN x interface generated due to the Ga–Ga metal like bonding states. It was found that the high temperature annealed SiN x gate dielectric exhibited the lowest interface state density and a two-step C–V indicative of a superior quality SiN x /GaN interface as confirmed from conductance and capacitance measurements. High-temperature annealing helps form Ga–N bonding states, thus reducing the shallow metal-like interface states. MISHEMT measurements showed a significant reduction in gate leakage and a four-orders of magnitude improvement in the ON/OFF ratio while increasing the saturation drain current (I DS) by a factor of 2. Besides, MISHEMTs with two-step SiN x passivation exhibited a relatively flat transconductance profile, indicating lower interface states density. The dynamic R on with gate and drain stressing measurements also showed about 3× improvements in devices with bilayer SiN x passivation.

Published
2022
Full Text
View/download PDF

28. Gain mechanism and carrier transport in high responsivity AlGaN-based solar blind metal semiconductor metal photodetectors.

Author

Rathkanthiwar, Shashwat, Kalra, Anisha, Solanke, Swanand V., Mohta, Neha, Muralidharan, Rangarajan, Raghavan, Srinivasan, and Nath, Digbijoy N.

Subjects
ALUMINUM gallium nitride, SEMICONDUCTORS, PHOTODETECTORS, SAPPHIRES, METAL organic chemical vapor deposition
Abstract

We report on the highest responsivity for III-nitride Metal Semiconductor Metal solar-blind photodetectors on sapphire. Devices on unintentionally doped AlGaN epilayers grown by Metal Organic Chemical Vapor Deposition exhibited sharp absorption cut-off in the range of 245-290 nm. Very high responsivity >5 A/W at 10V bias was achieved with visible rejection exceeding three orders of magnitude for front illumination. Compared to the responsivity values reported in the literature for state-of-the-art solar-blind photodetectors, this work presents the highest values of responsivity at a given bias and up to sub-250 nm detection threshold. The high responsivity is attributed to an internal gain mechanism operating on these devices. The reverse-bias leakage current across these samples was found to be dominated by thermionic field emission at low biases and Poole-Frenkel emission from a deep trap level (0.7 eV from the conduction band-edge for Al0.50Ga0.50N) at high biases. [ABSTRACT FROM AUTHOR]

Published
2017
Full Text
View/download PDF

40. Re-engineering transition layers in AlGaN/GaN HEMT on Si for high voltage applications

Author

Anirudh Venugopalrao, Nayana Remesh, Digbijoy N. Nath, Srinivasan Raghavan, Hareesh Chandrasekar, and Muralidharan Rangarajan

Subjects
Materials science, business.industry, Band gap, General Physics and Astronomy, Optoelectronics, High voltage, Activation energy, Substrate (electronics), High-electron-mobility transistor, business, Crystallographic defect, Space charge, Leakage (electronics)
Abstract

We report on the study of step-graded AlGaN transition layers (TLs) in metalorganic chemical vapor deposition-grown GaN HEMT-on-silicon toward improving the breakdown field while minimizing buffer-induced current dispersion. The transition layers include three AlGaN epi-layers of 75%, 50%, and 25% Al-content, downgraded from bottom to top. The growth temperature and carbon doping are varied independently to assess the transition layer's role in reducing current collapse and leakage current. We observe that the introduction of High Temperature (HT) AlGaN increases the lateral but decreases the vertical leakage, the latter being attributed to the reduction of V-pit density. Temperature-dependent data indicate that the increased lateral (mesa) leakage current in HT AlGaN layers is due to space charge limited current, the activation energy of which yields the positions of the defect states within the bandgap. The increase in mesa leakage current in HT AlGaN layers is attributed to the formation of point defects such as oxygen in nitrogen site (ON) and VGa–ON complexes. The introduction of C-doping in the top AlGaN transition layer with 25% Al-content helps reduce lateral leakage in both mesa and 3-terminal configurations. The combination of HT AlGaN (75% Al-content) with C-doped AlGaN (25% Al-content) is found to be the optimal TL design that yielded a minimum buffer-induced current dispersion with a 65% channel recovery when the substrate was swept to −300 V and back; moreover, it also enabled a vertical breakdown field of 2.05 MV/cm defined at 1 A/cm2 for a buffer thickness of 1.65 μm.

Published
2021
Full Text
View/download PDF

41. UV/Near-IR dual band photodetector based on p-GaN/α-In2Se3 heterojunction

Author

Muralidharan Rangarajan, Rohith Soman, Srinivasan Raghavan, Digbijoy N. Nath, and Swanand V. Solanke

Subjects
010302 applied physics, Materials science, business.industry, Metals and Alloys, Wide-bandgap semiconductor, Photodetector, Heterojunction, 02 engineering and technology, Substrate (electronics), Specific detectivity, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Responsivity, 0103 physical sciences, Optoelectronics, Direct and indirect band gaps, Electrical and Electronic Engineering, 0210 nano-technology, business, Instrumentation, Visible spectrum
Abstract

In this report, we demonstrate dual band vertical heterojunction photodetector realized by integrating α-In2Se3 with p-type GaN. Flakes of ∼ 110 nm thickness were exfoliated on MOCVD grown p-GaN on silicon substrate. Devices showed two distinct detection peaks in spectral responsivity, one at 365 nm and another at 850 nm, corresponding to band edges of GaN and α-In2Se3 respectively, with considerable rejection in visible spectrum. Normalised responsivity values were found out to be ∼70 mA/W at both 365 nm and 850 nm for the bias of -3V along with photo-to-dark current ratio of ∼665 and ∼75 in that order. The Devices also showed fast transient response with no persistent photoconductivity (PPC). The specific detectivity values estimated were ∼1011 Jones and ∼1010 Jones corresponding to illumination at 365 nm and 850 nm, respectively. Device showed ∼0.4 dependence on incident power at 365 nm. The device performance, post annealing was also studied. This study is expected to pave the way for new type of optoelectronic devices by integrating direct bandgap layered material like α-In2Se3 and wide bandgap semiconductors.

Published
2021
Full Text
View/download PDF

50. Thickness Dependent Parasitic Channel Formation at AlN/Si Interfaces

Author

Hareesh Chandrasekar, Muralidharan Rangarajan, Srinivasan Raghavan, K. N. Bhat, and Navakanta Bhat

Subjects
Conduction pathway, Materials science, Silicon, lcsh:Medicine, chemistry.chemical_element, FOS: Physical sciences, 02 engineering and technology, Electron, 01 natural sciences, Article, Secondary Ion Mass Spectroscopy, 0103 physical sciences, Thermal, Journal Article, lcsh:Science, 010302 applied physics, Thickness dependent, Condensed Matter - Materials Science, Multidisciplinary, lcsh:R, Materials Science (cond-mat.mtrl-sci), 021001 nanoscience & nanotechnology, Acceptor, chemistry, Chemical physics, Centre for Nano Science and Engineering, lcsh:Q, 0210 nano-technology
Abstract

The performance of GaN-on-Silicon electronic devices is severely degraded by the presence of a parasitic conduction pathway at the nitride-substrate interface which contributes to switching losses and lower breakdown voltages. The physical nature of such a parasitic channel and its properties are however, not well understood. We report on a pronounced thickness dependence of the parasitic channel formation at AlN/Si interfaces due to increased surface acceptor densities at the interface in silicon. The origin of these surface acceptors is analyzed using secondary ion mass spectroscopy measurements and traced to thermal acceptor formation due to Si-O-N complexes. Low-temperature (5K) magneto-resistance (MR) data reveals a transition from positive to negative MR with increasing AlN film thickness indicating the presence of an inversion layer of electrons which also contributes to parasitic channel formation but whose contribution is secondary at room temperatures., Comment: 23 pages, 7 figures

Published
2017
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results