Complete photonic bandgap in silicon nitride slab assisted by effective index difference between polarizations

Ma, Chongfang; Hou, Jing; Yang, Chao; Shi, Ming; Chen, Shaoping

doi:10.1007/s12200-022-00023-6

Front. Optoelectron.

2022

DOI: 10.1007/s12200-022-00023-6

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Complete photonic bandgap in silicon nitride slab assisted by effective index difference between polarizations

Chongfang Ma

Jing Hou

Chao Yang

et al.

Abstract: The slab effective index difference between the transverse-electric (TE) and transverse-magnetic (TM) polarizations was utilized to obtain complete photonic bandgap (CPBG) in a silicon nitride (SixNy) photonic crystal slab. For this, coincident frequency range in the TE photonic bandgap (PBG) and TM PBG, which denotes the CPBGs of the slab, must be found with the same structure. Through adjusting the effective index pair of TE and TM polarizations by changing the thickness of the SixNy core layer, and also opt… Show more

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Cited by 2 publications

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“…Tao et al [8] demonstrated an ultra-compact, low-loss, slot-strip converter with polarization insensitivity based on the multimode interference effect. Ma et al [9] introduced a method to obtain complete photonic bandgap (CPBG) in a silicon nitride (Si x N y ) photonic crystal slab.…”

mentioning

confidence: 99%

Silicon-based optoelectronics: progress towards large scale optoelectronic integration and applications

Gao

Zhou

2022

Front. Optoelectron.

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mentioning

confidence: 99%

Silicon-based optoelectronics: progress towards large scale optoelectronic integration and applications

Gao

Zhou

2022

Front. Optoelectron.

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Raman Investigation on Silicon Nitride Chips after Soldering onto Copper Substrates

Mezzalira,

Conti,

Pedron

et al. 2024

Micromachines

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The unique electrical properties of silicon nitride have increased the applications in microelectronics, especially in the manufacture of integrated circuits. Silicon nitride is mainly used as a passivation barrier against water and sodium ion diffusion and as an electrical insulator between polysilicon layers in capacitors. The interface with different materials, like semiconductors and metals, through soldering may induce residual strains in the final assembly. Therefore, the dentification and quantification of strain becomes strategically important in optimizing processes to enhance the performance, duration, and reliability of devices. This work analyzes the thermomechanical local strain of semiconductor materials used to realize optoelectronic components. The strain induced in the β-Si3N4 chips by the soldering process performed with AuSn pre-formed on copper substrates is investigated by Raman spectroscopy in a temperature range of −50 to 180 °C. The variation in the position of the E1g Raman peak allows the calculation of the local stress present in the active layer, from which the strain induced during the assembly process can be determined. The main reason for the strain is attributed to the differences in thermal expansion coefficients among the various materials involved, particularly between the chip, the interconnection material, and the substrate. Micro-Raman spectroscopy allows for the assessment of how different materials and assembly processes impact the strain, enabling more informed decisions to optimize the overall device structure.

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Complete photonic bandgap in silicon nitride slab assisted by effective index difference between polarizations

Cited by 2 publications

References 35 publications

Silicon-based optoelectronics: progress towards large scale optoelectronic integration and applications

Silicon-based optoelectronics: progress towards large scale optoelectronic integration and applications

Raman Investigation on Silicon Nitride Chips after Soldering onto Copper Substrates

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