Abstract

Developing micro/nanoscale wire lasers with single-mode operation and lasing wavelength modulation is essential for realizing their practical applications such as optical communication and saturated spectroscopy. We demonstrated, to the best of our knowledge, the first tunable single-mode microrod laser without complicated micro/nano-manipulation and without additional environmental requirement. In this letter, we realized the wavelength modulation in a single semiconductor microrod simply and directly by changing the axial location of the active region, owing that the active region position plays a key role in determining the lasing mode of microrod lasers. Based on this feature, we proposed a pair of asymmetrical distributed Bragg reflectors (DBRs) with specific spectral selectivity to be induced in a GaN microrod to realize tunable single-mode lasing in a single semiconductor microrod. By using this method, lasing wavelength can be modulated from 369.5 to 375.7 nm flexibly and repeatedly in a 45 μm GaN microrod with the change of the excitation source position. This approach demonstrates a big application potential in numerous fields consisting of optical telecommunication and environmental monitoring.

© 2018 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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References

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    [Crossref] [PubMed]
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2018 (1)

A. B. Vasista, H. Jog, T. Heilpern, M. E. Sykes, S. Tiwari, D. K. Sharma, S. K. Chaubey, G. P. Wiederrecht, S. K. Gray, and G. V. P. Kumar, “Differential Wavevector Distribution of Surface-Enhanced Raman Scattering and Fluorescence in a Film-Coupled Plasmonic Nanowire Cavity,” Nano Lett. 18(1), 650–655 (2018).
[Crossref] [PubMed]

2017 (6)

M. Spies, M. I. den Hertog, P. Hille, J. Schörmann, J. Polaczyński, B. Gayral, M. Eickhoff, E. Monroy, and J. Lähnemann, “Bias-controlled spectral response in GaN/AlN single-nanowire ultraviolet photodetectors,” Nano Lett. 17(7), 4231–4239 (2017).
[Crossref] [PubMed]

C. Li, J. B. Wright, S. Liu, P. Lu, J. J. Figiel, B. Leung, W. W. Chow, I. Brener, D. D. Koleske, T.-S. Luk, D. F. Feezell, S. R. J. Brueck, and G. T. Wang, “Nonpolar InGaN/GaN core–shell single nanowire lasers,” Nano Lett. 17(2), 1049–1055 (2017).
[Crossref] [PubMed]

M. Zapf, R. Röder, K. Winkler, L. Kaden, J. Greil, M. Wille, M. Grundmann, R. Schmidt-Grund, A. Lugstein, and C. Ronning, “Dynamical Tuning of Nanowire Lasing Spectra,” Nano Lett. 17(11), 6637–6643 (2017).
[Crossref] [PubMed]

Y. Yang, H. Zong, C. Ma, T. Wei, J. Li, J. Zhang, M. Li, C. Pan, and X. Hu, “Self-selection mechanism of Fabry-Pérot micro/nanoscale wire cavity for single-mode lasing,” Opt. Express 25(18), 21025–21036 (2017).
[Crossref] [PubMed]

H. Zong, Y. Yang, C. Ma, X. Feng, T. Wei, W. Yang, J. Li, J. Li, L. You, J. Zhang, M. Li, C. Pan, X. Hu, and B. Shen, “Flexibly and Repeatedly Modulating Lasing Wavelengths in a Single Core-Shell Semiconductor Microrod,” ACS Nano 11(6), 5808–5814 (2017).
[Crossref] [PubMed]

R. Su, C. Diederichs, J. Wang, T. C. H. Liew, J. Zhao, S. Liu, W. Xu, Z. Chen, and Q. Xiong, “Room-temperature polariton lasing in all-inorganic perovskite nanoplatelets,” Nano Lett. 17(6), 3982–3988 (2017).
[Crossref] [PubMed]

2015 (3)

A. Fu, H. Gao, P. Petrov, and P. Yang, “Widely Tunable Distributed Bragg Reflectors Integrated into Nanowire Waveguides,” Nano Lett. 15(10), 6909–6913 (2015).
[Crossref] [PubMed]

S. Liu, C. Li, J. J. Figiel, S. R. J. Brueck, I. Brener, and G. T. Wang, “Continuous and dynamic spectral tuning of single nanowire lasers with subnanometer resolution using hydrostatic pressure,” Nanoscale 7(21), 9581–9588 (2015).
[Crossref] [PubMed]

H. Zhu, Y. Fu, F. Meng, X. Wu, Z. Gong, Q. Ding, M. V. Gustafsson, M. T. Trinh, S. Jin, and X.-Y. Zhu, “Lead halide perovskite nanowire lasers with low lasing thresholds and high quality factors,” Nat. Mater. 14(6), 636–642 (2015).
[Crossref] [PubMed]

2014 (1)

Z. Yang, D. Wang, C. Meng, Z. Wu, Y. Wang, Y. Ma, L. Dai, X. Liu, T. Hasan, X. Liu, and Q. Yang, “Broadly defining lasing wavelengths in single bandgap-graded semiconductor nanowires,” Nano Lett. 14(6), 3153–3159 (2014).
[Crossref] [PubMed]

2013 (5)

S. Arafin, X. Liu, and Z. Mi, “Review of recent progress of III-nitride nanowire lasers,” J. Nanophotonics 7(1), 074599 (2013).
[Crossref]

H. Gao, A. Fu, S. C. Andrews, and P. Yang, “Cleaved-coupled nanowire lasers,” Proc. Natl. Acad. Sci. U.S.A. 110(3), 865–869 (2013).
[Crossref] [PubMed]

X. Liu, Q. Zhang, Q. Xiong, and T. C. Sum, “Tailoring the lasing modes in semiconductor nanowire cavities using intrinsic self-absorption,” Nano Lett. 13(3), 1080–1085 (2013).
[Crossref] [PubMed]

J. Li, C. Meng, Y. Liu, X. Wu, Y. Lu, Y. Ye, L. Dai, L. Tong, X. Liu, and Q. Yang, “Wavelength Tunable CdSe Nanowire Lasers Based on the Absorption-Emission-Absorption Process,” Adv. Mater. 25(6), 833–837 (2013).
[Crossref] [PubMed]

Y. Lu, F. Gu, C. Meng, H. Yu, Y. Ma, W. Fang, and L. Tong, “Multicolour laser from a single bandgap-graded CdSSe alloy nanoribbon,” Opt. Express 21(19), 22314–22319 (2013).
[Crossref] [PubMed]

2012 (2)

Q. Li, J. B. Wright, W. W. Chow, T. S. Luk, I. Brener, L. F. Lester, and G. T. Wang, “Single-mode GaN nanowire lasers,” Opt. Express 20(16), 17873–17879 (2012).
[Crossref] [PubMed]

J. Xu, X. Zhuang, P. Guo, W. Huang, W. Hu, Q. Zhang, Q. Wan, X. Zhu, Z. Yang, L. Tong, X. Duan, and A. Pan, “Asymmetric light propagation in composition-graded semiconductor nanowires,” Sci. Rep. 2(1), 820 (2012).
[Crossref] [PubMed]

2011 (3)

Y. Xiao, C. Meng, P. Wang, Y. Ye, H. Yu, S. Wang, F. Gu, L. Dai, and L. Tong, “Single-nanowire single-mode laser,” Nano Lett. 11(3), 1122–1126 (2011).
[Crossref] [PubMed]

R. Chen, T.-T. D. Tran, K. W. Ng, W. S. Ko, L. C. Chuang, F. G. Sedgwick, and C. Chang-Hasnain, “Nanolasers grown on silicon,” Nat. Photonics 5(3), 170–175 (2011).
[Crossref]

Y. Xiao, C. Meng, X. Wu, and L. Tong, “Single mode lasing in coupled nanowires,” Appl. Phys. Lett. 99(2), 023109 (2011).
[Crossref]

2009 (1)

R. Yan, D. Gargas, and P. Yang, “Nanowire photonics,” Nat. Photonics 3(10), 569–576 (2009).
[Crossref]

2006 (4)

J. Buus and E. J. Murphy, “Tunable lasers in optical networks,” J. Lightwave Technol. 24(1), 5–11 (2006).
[Crossref]

C. J. Barrelet, J. Bao, M. Loncar, H.-G. Park, F. Capasso, and C. M. Lieber, “Hybrid single-nanowire photonic crystal and microresonator structures,” Nano Lett. 6(1), 11–15 (2006).
[Crossref] [PubMed]

L. Chen and E. Towe, “Coupled optoelectronic modeling and simulation of nanowire lasers,” J. Appl. Phys. 100(4), 44305 (2006).
[Crossref]

A. B. Djurisić and Y. H. Leung, “Optical properties of ZnO nanostructures,” Small 2(8-9), 944–961 (2006).
[Crossref] [PubMed]

2005 (1)

2003 (1)

Y. Xia, P. Yang, Y. Sun, Y. Wu, B. Mayers, B. Gates, Y. Yin, F. Kim, and H. Yan, “One-dimensional nanostructures: synthesis, characterization, and applications,” Adv. Mater. 15(5), 353–389 (2003).
[Crossref]

1998 (1)

M. M. Y. Leung, A. B. Djuriŝić, and E. H. Li, “Refractive index of InGaN/GaN quantum well,” J. Appl. Phys. 84(11), 6312–6317 (1998).
[Crossref]

1996 (1)

A. Dodabalapur, L. J. Rothberg, R. H. Jordan, T. M. Miller, R. E. Slusher, and J. M. Phillips, “Physics and applications of organic microcavity light emitting diodes,” J. Appl. Phys. 80(12), 6954–6964 (1996).
[Crossref]

1971 (1)

T. W. Hänsch, I. S. Shahin, and A. L. Schawlow, “High-Resolution Saturation Spectroscopy of the Sodium D Lines with a Pulsed Tunable Dye Laser,” Phys. Rev. Lett. 27(11), 707–710 (1971).
[Crossref]

Andrews, S. C.

H. Gao, A. Fu, S. C. Andrews, and P. Yang, “Cleaved-coupled nanowire lasers,” Proc. Natl. Acad. Sci. U.S.A. 110(3), 865–869 (2013).
[Crossref] [PubMed]

Arafin, S.

S. Arafin, X. Liu, and Z. Mi, “Review of recent progress of III-nitride nanowire lasers,” J. Nanophotonics 7(1), 074599 (2013).
[Crossref]

Bao, J.

C. J. Barrelet, J. Bao, M. Loncar, H.-G. Park, F. Capasso, and C. M. Lieber, “Hybrid single-nanowire photonic crystal and microresonator structures,” Nano Lett. 6(1), 11–15 (2006).
[Crossref] [PubMed]

Barrelet, C. J.

C. J. Barrelet, J. Bao, M. Loncar, H.-G. Park, F. Capasso, and C. M. Lieber, “Hybrid single-nanowire photonic crystal and microresonator structures,” Nano Lett. 6(1), 11–15 (2006).
[Crossref] [PubMed]

Birks, T.

Brener, I.

C. Li, J. B. Wright, S. Liu, P. Lu, J. J. Figiel, B. Leung, W. W. Chow, I. Brener, D. D. Koleske, T.-S. Luk, D. F. Feezell, S. R. J. Brueck, and G. T. Wang, “Nonpolar InGaN/GaN core–shell single nanowire lasers,” Nano Lett. 17(2), 1049–1055 (2017).
[Crossref] [PubMed]

S. Liu, C. Li, J. J. Figiel, S. R. J. Brueck, I. Brener, and G. T. Wang, “Continuous and dynamic spectral tuning of single nanowire lasers with subnanometer resolution using hydrostatic pressure,” Nanoscale 7(21), 9581–9588 (2015).
[Crossref] [PubMed]

Q. Li, J. B. Wright, W. W. Chow, T. S. Luk, I. Brener, L. F. Lester, and G. T. Wang, “Single-mode GaN nanowire lasers,” Opt. Express 20(16), 17873–17879 (2012).
[Crossref] [PubMed]

Brueck, S. R. J.

C. Li, J. B. Wright, S. Liu, P. Lu, J. J. Figiel, B. Leung, W. W. Chow, I. Brener, D. D. Koleske, T.-S. Luk, D. F. Feezell, S. R. J. Brueck, and G. T. Wang, “Nonpolar InGaN/GaN core–shell single nanowire lasers,” Nano Lett. 17(2), 1049–1055 (2017).
[Crossref] [PubMed]

S. Liu, C. Li, J. J. Figiel, S. R. J. Brueck, I. Brener, and G. T. Wang, “Continuous and dynamic spectral tuning of single nanowire lasers with subnanometer resolution using hydrostatic pressure,” Nanoscale 7(21), 9581–9588 (2015).
[Crossref] [PubMed]

Buus, J.

Capasso, F.

C. J. Barrelet, J. Bao, M. Loncar, H.-G. Park, F. Capasso, and C. M. Lieber, “Hybrid single-nanowire photonic crystal and microresonator structures,” Nano Lett. 6(1), 11–15 (2006).
[Crossref] [PubMed]

Chang-Hasnain, C.

R. Chen, T.-T. D. Tran, K. W. Ng, W. S. Ko, L. C. Chuang, F. G. Sedgwick, and C. Chang-Hasnain, “Nanolasers grown on silicon,” Nat. Photonics 5(3), 170–175 (2011).
[Crossref]

Chaubey, S. K.

A. B. Vasista, H. Jog, T. Heilpern, M. E. Sykes, S. Tiwari, D. K. Sharma, S. K. Chaubey, G. P. Wiederrecht, S. K. Gray, and G. V. P. Kumar, “Differential Wavevector Distribution of Surface-Enhanced Raman Scattering and Fluorescence in a Film-Coupled Plasmonic Nanowire Cavity,” Nano Lett. 18(1), 650–655 (2018).
[Crossref] [PubMed]

Chen, L.

L. Chen and E. Towe, “Coupled optoelectronic modeling and simulation of nanowire lasers,” J. Appl. Phys. 100(4), 44305 (2006).
[Crossref]

Chen, R.

R. Chen, T.-T. D. Tran, K. W. Ng, W. S. Ko, L. C. Chuang, F. G. Sedgwick, and C. Chang-Hasnain, “Nanolasers grown on silicon,” Nat. Photonics 5(3), 170–175 (2011).
[Crossref]

Chen, Z.

R. Su, C. Diederichs, J. Wang, T. C. H. Liew, J. Zhao, S. Liu, W. Xu, Z. Chen, and Q. Xiong, “Room-temperature polariton lasing in all-inorganic perovskite nanoplatelets,” Nano Lett. 17(6), 3982–3988 (2017).
[Crossref] [PubMed]

Chow, W. W.

C. Li, J. B. Wright, S. Liu, P. Lu, J. J. Figiel, B. Leung, W. W. Chow, I. Brener, D. D. Koleske, T.-S. Luk, D. F. Feezell, S. R. J. Brueck, and G. T. Wang, “Nonpolar InGaN/GaN core–shell single nanowire lasers,” Nano Lett. 17(2), 1049–1055 (2017).
[Crossref] [PubMed]

Q. Li, J. B. Wright, W. W. Chow, T. S. Luk, I. Brener, L. F. Lester, and G. T. Wang, “Single-mode GaN nanowire lasers,” Opt. Express 20(16), 17873–17879 (2012).
[Crossref] [PubMed]

Chuang, L. C.

R. Chen, T.-T. D. Tran, K. W. Ng, W. S. Ko, L. C. Chuang, F. G. Sedgwick, and C. Chang-Hasnain, “Nanolasers grown on silicon,” Nat. Photonics 5(3), 170–175 (2011).
[Crossref]

Couny, F.

Dai, L.

Z. Yang, D. Wang, C. Meng, Z. Wu, Y. Wang, Y. Ma, L. Dai, X. Liu, T. Hasan, X. Liu, and Q. Yang, “Broadly defining lasing wavelengths in single bandgap-graded semiconductor nanowires,” Nano Lett. 14(6), 3153–3159 (2014).
[Crossref] [PubMed]

J. Li, C. Meng, Y. Liu, X. Wu, Y. Lu, Y. Ye, L. Dai, L. Tong, X. Liu, and Q. Yang, “Wavelength Tunable CdSe Nanowire Lasers Based on the Absorption-Emission-Absorption Process,” Adv. Mater. 25(6), 833–837 (2013).
[Crossref] [PubMed]

Y. Xiao, C. Meng, P. Wang, Y. Ye, H. Yu, S. Wang, F. Gu, L. Dai, and L. Tong, “Single-nanowire single-mode laser,” Nano Lett. 11(3), 1122–1126 (2011).
[Crossref] [PubMed]

den Hertog, M. I.

M. Spies, M. I. den Hertog, P. Hille, J. Schörmann, J. Polaczyński, B. Gayral, M. Eickhoff, E. Monroy, and J. Lähnemann, “Bias-controlled spectral response in GaN/AlN single-nanowire ultraviolet photodetectors,” Nano Lett. 17(7), 4231–4239 (2017).
[Crossref] [PubMed]

Diederichs, C.

R. Su, C. Diederichs, J. Wang, T. C. H. Liew, J. Zhao, S. Liu, W. Xu, Z. Chen, and Q. Xiong, “Room-temperature polariton lasing in all-inorganic perovskite nanoplatelets,” Nano Lett. 17(6), 3982–3988 (2017).
[Crossref] [PubMed]

Ding, Q.

H. Zhu, Y. Fu, F. Meng, X. Wu, Z. Gong, Q. Ding, M. V. Gustafsson, M. T. Trinh, S. Jin, and X.-Y. Zhu, “Lead halide perovskite nanowire lasers with low lasing thresholds and high quality factors,” Nat. Mater. 14(6), 636–642 (2015).
[Crossref] [PubMed]

Djurisic, A. B.

A. B. Djurisić and Y. H. Leung, “Optical properties of ZnO nanostructures,” Small 2(8-9), 944–961 (2006).
[Crossref] [PubMed]

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Y. Xiao, C. Meng, P. Wang, Y. Ye, H. Yu, S. Wang, F. Gu, L. Dai, and L. Tong, “Single-nanowire single-mode laser,” Nano Lett. 11(3), 1122–1126 (2011).
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Y. Yang, H. Zong, C. Ma, T. Wei, J. Li, J. Zhang, M. Li, C. Pan, and X. Hu, “Self-selection mechanism of Fabry-Pérot micro/nanoscale wire cavity for single-mode lasing,” Opt. Express 25(18), 21025–21036 (2017).
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A. B. Vasista, H. Jog, T. Heilpern, M. E. Sykes, S. Tiwari, D. K. Sharma, S. K. Chaubey, G. P. Wiederrecht, S. K. Gray, and G. V. P. Kumar, “Differential Wavevector Distribution of Surface-Enhanced Raman Scattering and Fluorescence in a Film-Coupled Plasmonic Nanowire Cavity,” Nano Lett. 18(1), 650–655 (2018).
[Crossref] [PubMed]

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M. Zapf, R. Röder, K. Winkler, L. Kaden, J. Greil, M. Wille, M. Grundmann, R. Schmidt-Grund, A. Lugstein, and C. Ronning, “Dynamical Tuning of Nanowire Lasing Spectra,” Nano Lett. 17(11), 6637–6643 (2017).
[Crossref] [PubMed]

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M. Zapf, R. Röder, K. Winkler, L. Kaden, J. Greil, M. Wille, M. Grundmann, R. Schmidt-Grund, A. Lugstein, and C. Ronning, “Dynamical Tuning of Nanowire Lasing Spectra,” Nano Lett. 17(11), 6637–6643 (2017).
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[Crossref] [PubMed]

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H. Zhu, Y. Fu, F. Meng, X. Wu, Z. Gong, Q. Ding, M. V. Gustafsson, M. T. Trinh, S. Jin, and X.-Y. Zhu, “Lead halide perovskite nanowire lasers with low lasing thresholds and high quality factors,” Nat. Mater. 14(6), 636–642 (2015).
[Crossref] [PubMed]

J. Li, C. Meng, Y. Liu, X. Wu, Y. Lu, Y. Ye, L. Dai, L. Tong, X. Liu, and Q. Yang, “Wavelength Tunable CdSe Nanowire Lasers Based on the Absorption-Emission-Absorption Process,” Adv. Mater. 25(6), 833–837 (2013).
[Crossref] [PubMed]

Y. Xiao, C. Meng, X. Wu, and L. Tong, “Single mode lasing in coupled nanowires,” Appl. Phys. Lett. 99(2), 023109 (2011).
[Crossref]

Wu, Y.

Y. Xia, P. Yang, Y. Sun, Y. Wu, B. Mayers, B. Gates, Y. Yin, F. Kim, and H. Yan, “One-dimensional nanostructures: synthesis, characterization, and applications,” Adv. Mater. 15(5), 353–389 (2003).
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Z. Yang, D. Wang, C. Meng, Z. Wu, Y. Wang, Y. Ma, L. Dai, X. Liu, T. Hasan, X. Liu, and Q. Yang, “Broadly defining lasing wavelengths in single bandgap-graded semiconductor nanowires,” Nano Lett. 14(6), 3153–3159 (2014).
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Y. Xia, P. Yang, Y. Sun, Y. Wu, B. Mayers, B. Gates, Y. Yin, F. Kim, and H. Yan, “One-dimensional nanostructures: synthesis, characterization, and applications,” Adv. Mater. 15(5), 353–389 (2003).
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Y. Xiao, C. Meng, P. Wang, Y. Ye, H. Yu, S. Wang, F. Gu, L. Dai, and L. Tong, “Single-nanowire single-mode laser,” Nano Lett. 11(3), 1122–1126 (2011).
[Crossref] [PubMed]

Y. Xiao, C. Meng, X. Wu, and L. Tong, “Single mode lasing in coupled nanowires,” Appl. Phys. Lett. 99(2), 023109 (2011).
[Crossref]

Xiong, Q.

R. Su, C. Diederichs, J. Wang, T. C. H. Liew, J. Zhao, S. Liu, W. Xu, Z. Chen, and Q. Xiong, “Room-temperature polariton lasing in all-inorganic perovskite nanoplatelets,” Nano Lett. 17(6), 3982–3988 (2017).
[Crossref] [PubMed]

X. Liu, Q. Zhang, Q. Xiong, and T. C. Sum, “Tailoring the lasing modes in semiconductor nanowire cavities using intrinsic self-absorption,” Nano Lett. 13(3), 1080–1085 (2013).
[Crossref] [PubMed]

Xu, J.

J. Xu, X. Zhuang, P. Guo, W. Huang, W. Hu, Q. Zhang, Q. Wan, X. Zhu, Z. Yang, L. Tong, X. Duan, and A. Pan, “Asymmetric light propagation in composition-graded semiconductor nanowires,” Sci. Rep. 2(1), 820 (2012).
[Crossref] [PubMed]

Xu, W.

R. Su, C. Diederichs, J. Wang, T. C. H. Liew, J. Zhao, S. Liu, W. Xu, Z. Chen, and Q. Xiong, “Room-temperature polariton lasing in all-inorganic perovskite nanoplatelets,” Nano Lett. 17(6), 3982–3988 (2017).
[Crossref] [PubMed]

Yan, H.

Y. Xia, P. Yang, Y. Sun, Y. Wu, B. Mayers, B. Gates, Y. Yin, F. Kim, and H. Yan, “One-dimensional nanostructures: synthesis, characterization, and applications,” Adv. Mater. 15(5), 353–389 (2003).
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Yan, R.

R. Yan, D. Gargas, and P. Yang, “Nanowire photonics,” Nat. Photonics 3(10), 569–576 (2009).
[Crossref]

Yang, P.

A. Fu, H. Gao, P. Petrov, and P. Yang, “Widely Tunable Distributed Bragg Reflectors Integrated into Nanowire Waveguides,” Nano Lett. 15(10), 6909–6913 (2015).
[Crossref] [PubMed]

H. Gao, A. Fu, S. C. Andrews, and P. Yang, “Cleaved-coupled nanowire lasers,” Proc. Natl. Acad. Sci. U.S.A. 110(3), 865–869 (2013).
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R. Yan, D. Gargas, and P. Yang, “Nanowire photonics,” Nat. Photonics 3(10), 569–576 (2009).
[Crossref]

Y. Xia, P. Yang, Y. Sun, Y. Wu, B. Mayers, B. Gates, Y. Yin, F. Kim, and H. Yan, “One-dimensional nanostructures: synthesis, characterization, and applications,” Adv. Mater. 15(5), 353–389 (2003).
[Crossref]

Yang, Q.

Z. Yang, D. Wang, C. Meng, Z. Wu, Y. Wang, Y. Ma, L. Dai, X. Liu, T. Hasan, X. Liu, and Q. Yang, “Broadly defining lasing wavelengths in single bandgap-graded semiconductor nanowires,” Nano Lett. 14(6), 3153–3159 (2014).
[Crossref] [PubMed]

J. Li, C. Meng, Y. Liu, X. Wu, Y. Lu, Y. Ye, L. Dai, L. Tong, X. Liu, and Q. Yang, “Wavelength Tunable CdSe Nanowire Lasers Based on the Absorption-Emission-Absorption Process,” Adv. Mater. 25(6), 833–837 (2013).
[Crossref] [PubMed]

Yang, W.

H. Zong, Y. Yang, C. Ma, X. Feng, T. Wei, W. Yang, J. Li, J. Li, L. You, J. Zhang, M. Li, C. Pan, X. Hu, and B. Shen, “Flexibly and Repeatedly Modulating Lasing Wavelengths in a Single Core-Shell Semiconductor Microrod,” ACS Nano 11(6), 5808–5814 (2017).
[Crossref] [PubMed]

Yang, Y.

H. Zong, Y. Yang, C. Ma, X. Feng, T. Wei, W. Yang, J. Li, J. Li, L. You, J. Zhang, M. Li, C. Pan, X. Hu, and B. Shen, “Flexibly and Repeatedly Modulating Lasing Wavelengths in a Single Core-Shell Semiconductor Microrod,” ACS Nano 11(6), 5808–5814 (2017).
[Crossref] [PubMed]

Y. Yang, H. Zong, C. Ma, T. Wei, J. Li, J. Zhang, M. Li, C. Pan, and X. Hu, “Self-selection mechanism of Fabry-Pérot micro/nanoscale wire cavity for single-mode lasing,” Opt. Express 25(18), 21025–21036 (2017).
[Crossref] [PubMed]

Yang, Z.

Z. Yang, D. Wang, C. Meng, Z. Wu, Y. Wang, Y. Ma, L. Dai, X. Liu, T. Hasan, X. Liu, and Q. Yang, “Broadly defining lasing wavelengths in single bandgap-graded semiconductor nanowires,” Nano Lett. 14(6), 3153–3159 (2014).
[Crossref] [PubMed]

J. Xu, X. Zhuang, P. Guo, W. Huang, W. Hu, Q. Zhang, Q. Wan, X. Zhu, Z. Yang, L. Tong, X. Duan, and A. Pan, “Asymmetric light propagation in composition-graded semiconductor nanowires,” Sci. Rep. 2(1), 820 (2012).
[Crossref] [PubMed]

Ye, Y.

J. Li, C. Meng, Y. Liu, X. Wu, Y. Lu, Y. Ye, L. Dai, L. Tong, X. Liu, and Q. Yang, “Wavelength Tunable CdSe Nanowire Lasers Based on the Absorption-Emission-Absorption Process,” Adv. Mater. 25(6), 833–837 (2013).
[Crossref] [PubMed]

Y. Xiao, C. Meng, P. Wang, Y. Ye, H. Yu, S. Wang, F. Gu, L. Dai, and L. Tong, “Single-nanowire single-mode laser,” Nano Lett. 11(3), 1122–1126 (2011).
[Crossref] [PubMed]

Yin, Y.

Y. Xia, P. Yang, Y. Sun, Y. Wu, B. Mayers, B. Gates, Y. Yin, F. Kim, and H. Yan, “One-dimensional nanostructures: synthesis, characterization, and applications,” Adv. Mater. 15(5), 353–389 (2003).
[Crossref]

You, L.

H. Zong, Y. Yang, C. Ma, X. Feng, T. Wei, W. Yang, J. Li, J. Li, L. You, J. Zhang, M. Li, C. Pan, X. Hu, and B. Shen, “Flexibly and Repeatedly Modulating Lasing Wavelengths in a Single Core-Shell Semiconductor Microrod,” ACS Nano 11(6), 5808–5814 (2017).
[Crossref] [PubMed]

Yu, H.

Y. Lu, F. Gu, C. Meng, H. Yu, Y. Ma, W. Fang, and L. Tong, “Multicolour laser from a single bandgap-graded CdSSe alloy nanoribbon,” Opt. Express 21(19), 22314–22319 (2013).
[Crossref] [PubMed]

Y. Xiao, C. Meng, P. Wang, Y. Ye, H. Yu, S. Wang, F. Gu, L. Dai, and L. Tong, “Single-nanowire single-mode laser,” Nano Lett. 11(3), 1122–1126 (2011).
[Crossref] [PubMed]

Zapf, M.

M. Zapf, R. Röder, K. Winkler, L. Kaden, J. Greil, M. Wille, M. Grundmann, R. Schmidt-Grund, A. Lugstein, and C. Ronning, “Dynamical Tuning of Nanowire Lasing Spectra,” Nano Lett. 17(11), 6637–6643 (2017).
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Figures (5)

Fig. 1
Fig. 1 (a) The SEM image of a single GaN microrod. (b) The SEM of a GaN microrod transferred to a marked Si substrate. Inset: The TEM micrograph of an individual GaN microrod. (c) Lasing spectrum of a single 45-μm-long, 3.8-μm-diameter GaN microrod pumped well above the lasing threshold at room temperature at different excitation positions.
Fig. 2
Fig. 2 The normalized reflection spectra of DBR-A and DBR-B.
Fig. 3
Fig. 3 The helium ion microscope image of the 45-μm-long, 3.8-μm-diameter GaN microrod after fabricating DBRs. The image of (a) the whole wire cavity, (b) the left end of the cavity integrated with DBR-B and (c) the right end of the cavity integrated with DBR-A.
Fig. 4
Fig. 4 The laser spectrum of the 45-μm-long, 3.8-μm-diameter GaN microrod with integrated DBRs at room temperature when the pumping source locates at (a) point-1 and (b) point-2.
Fig. 5
Fig. 5 (a) Lasing spectrum and (b) laser power dependence of the 45-μm-long, 3.8-μm-diameter GaN microrod with and without the designed asymmetrical DBRs.

Equations (2)

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L g L Γ g th = α p + α m
α m = 1 2L ln 1 R 1 R 2